Physics and folk signs about the weather. How to remove black streaks in a chimney? Flows like tar in the cold physical meaning

Physics and folk signs about the weather

• Clouds are floating high - good weather.
• If at sunset the sky is light azure, golden, light pink, or there is a noticeable predominance of a greenish tint, the weather is good, even if the sun is covered with clouds.
• The red disk of the sun sets in a cloud or fog - to rain or wind, in darkness - to drought.
• After sunset, the sky in the west turned crimson red - a sign of strong wind and rain.
• If the sun rises from the reddened clouds around it - to rain, in fog - to clear, quiet and stuffy weather.
• The morning sun is red - the weather will change for the worse, rain and wind are possible.
• When the sun rises, it is stuffy (steamy) - it means rain on the same day.
• If the moon seems larger than its normal size and is reddish in color, it means rain.
• During the full moon, the moon is light and pure in color - the weather is good, dark and pale - it means rain.
• At night the moon is a little reddish - the wind will bring warmth and snow tomorrow.
• The stars seem very shiny - in the heat, they flicker strongly and look smaller than usual - in the rain.
• A starry sky means clear weather, rare stars mean rain.
• Stars in the fog mean rain, falling stars mean the wind.
• If the stars twinkle strongly, and there are clouds in the morning, there will be a thunderstorm at noon.
• Strong twinkling of stars at dawn means rain in the coming days.

• A light rain in the morning means a good year; if bubbles form on the water from raindrops, the bad weather will be prolonged.
• Dull thunder means quiet rain, and rolling thunder means heavy rain.
• Prolonged rumbles of thunder mean prolonged bad weather.
• If lightning flashes without thunder after rain, the weather must be clear.
• If a rainbow appears in the morning before noon, it will rain; in the evening - for good weather.
• If a rainbow disappears soon after rain, it means clear weather; if it stays for a long time, it means bad weather.
• If rainbows appear during rain, it means rain for several days.
• If at sunset and sunrise the dawn is yellow, golden, or pink, then the next day the weather will be good. A greenish color indicates that clear weather will remain for a long time.
• If the dawn was red both in the morning and in the evening, the weather will be inclement. If there has been bad weather all day, and in the evening a stripe of blue sky appears in the west and the sun goes below the horizon in a clear sky, then tomorrow the weather will be clear.

Sometimes people say: “Salt gets wet - means rain”, “Soars - means thunderstorm”,

“Tobacco becomes damp - for damp weather.” What is it about? Some substances that absorb moisture from the surrounding air become damp; this happens just before rain, when air humidity increases.

There is an old folk sign: “A splinter cracks and throws sparks - a sign of bad weather.” Its explanation is similar: with high humidity, wooden objects (splinter) become damp. When burning, moisture from wood evaporates rapidly. Increasing in volume, the steam breaks the wood fibers with a crash.

Plants

• The dandelion squeezes its ball - it will rain.
• The clover shrinks, and the mallow flowers wilt and curl up - for the rain.
• Horse chestnut leaves secrete a large amount of sticky sap before rain.
• Before the rain, the flowers of a white water lily close.
• Drupe bushes, hiding in the shade of trees, straighten their usually rounded leaves 15-20 hours before the rain.
• In a storm, the pine tree rings, if you listen carefully, and the oak tree groans.
• On the eve of a sunny day, bindweed always opens it even in cloudy weather,
• Honeysuckle flowers generally lose their aroma before drought.
• Before the onset of rainy weather, the flower corollas of celandine noticeably droop.
• There is also this kind of grass with small oval leaves that is always wet to the touch, even in dry weather. This property of the plant is reflected in its name - chickweed, although its scientific name is chickweed. The thin white petals of its flowers, divided in two, have the appearance of an elegant star. You can predict the weather by its flowers. If the corolla of the flower does not rise before 9.00 am, it will rain during the day. This barometer can be used all summer, because... woodlice blooms from April to late autumn.
• Before the onset of inclement weather, potato stalks bend and the flowers droop.
• Friendly leaf fall - for a harsh winter.
• There are plenty of nuts, but few mushrooms - the winter will be snowy and harsh.

• Fireflies do not glow at all or suddenly go out - it’s raining
• Dragonflies fly in flocks - it will rain in 1-2 hours
• Midges climb into your face - because of the rain.
• Green grasshoppers fall silent before the rain.
• The hot summer is indicated by the abundance of May beetles that appear in the spring.
• The appearance of earthworms on the surface of the earth means rain.
• Sparrows bathe in dust - for rain
• Seagulls on the shore raise a hubbub - bad weather
• When the birds are silent, expect thunder.

Homemade weather forecasters

Solomina Natalya

This work is a small study in which, with the help of a physical experiment, mathematical calculations and analysis of the results obtained, an attempt is made to prove the validity of proverbs.

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Scientific and practical conference of the NOU “Poisk”

Municipal budgetary educational institution

"Sedelnikovskaya Secondary School No. 1"

Sedelnikovsky municipal district of Omsk region

Section “Exact Sciences and Technology”

Explanation of proverbs from the point of view of physics

Performed:

Solomina Natalya Nikolaevna,

7B grade student

Supervisor:

Andreev Andrey Vladimirovich,

Physics teacher

With. Sedelnikovo 2014

1. Relevance of the topic…………………………………..3
2. Theoretical part………………………………….4
3. Research work…………………………..5
4. Results……………………………………....13
5. Conclusion…………………………………………14
6. Used literature…………………………..15
7. Appendix………………………………………………………16

1. Relevance of the topic

In 7th grade, I had a new subject on my schedule - physics. This subject includes the study of physical phenomena. Such as mechanical, electrical, magnetic, thermal, sound and light. All these phenomena are, one way or another, connected with nature.

One day I came across the book “Russian folk riddles, proverbs and sayings”, opened it, “ran my eyes” over several proverbs and sayings and set myself a goal: how are proverbs and sayings related to physics? To achieve my goal, I set the following tasks:

1. Find out from the Internet what a proverb and a saying are.
2. Establish a connection between physics and folk art.
3. Conduct an experiment to prove the truth of the proverb.
4. Weed out prejudices and superstitions from truly apt, accurate descriptions of natural phenomena.
5. Assess people's observation skills.

The goal and objectives determined the hypothesis: Will the proverb help explain the phenomena and laws of physics?

Subject of research: the connection between physics and proverbs and sayings.

Object of study: proverbs and sayings, natural phenomena, everyday situations.

2. Theoretical part

From the Internet I learned that a Proverb is a short saying that expresses a complete thought (aphorism) and summarizes the centuries-old experience of the people. It belongs to the speech genres of folklore and is used in colloquial speech. It is said about the importance of the content and accuracy of proverbs: “A good proverb is not in the eyebrow, but in the eye.”

A saying is a laconic figurative expression; unlike proverbs, it is not an aphorism and does not have completeness. In I. Dahl defines a proverb as an “incomplete proverb.”

• Proverbs of the peoples of the world have much in common, with natural differences reflecting the historical, socio-economic, and natural conditions in which this or that nation was formed. Observations of natural phenomena and everyday situations in different places on the planet often led to similar or similar conclusions, captured in aphoristic folk sayings. Proverbs and sayings decorate everyday speech, giving it deep meaning and vivid figurative expression, making it lively and witty.

3. Research work

I started my practical work by choosing a few proverbs.

I considered the proverbs according to the following plan:

1. What physical phenomenon, concept, law is spoken of in the proverb?

2.What is its physical meaning?

3.Is the proverb true from the point of view of physics?

4.What is its everyday meaning?

Friendship is like glass, if you break it, you won’t be able to put it back together.

1. This proverb talks about such a phenomenon as the presence of attractive forces between molecules. The molecules of a solid are located at a very close distance from each other. Solids retain their shape at a distance greater than the size of the molecules themselves, therefore the force of attraction weakens.

2. This proverb is correct from the point of view of physics, because the fragments cannot be fused even by pressing them tightly; because of the irregularities, it is not possible to bring them closer to the distance at which the particles can be attracted to each other.

3. The glass material is very fragile, and the edges do not grow together. The wound on the body heals, but the glass does not. On the cup you can see a trace of gluing, and in the friendship there will already be a crack, it will remain and will indicate that the glass has broken.

FRIENDSHIP IS A VALUE THAT IS GIVEN TO PEOPLE AND WHICH NEEDS TO BE CAREFUL!

A fly in the ointment.

1. This proverb talks about a phenomenon called diffusion, in which mutual penetration of molecules of one substance between the molecules of another occurs.

2. This proverb is correct from the point of view of physics, because tar is a resinous liquid substance that will penetrate into another liquid substance - honey.

3. Honey is sweet and pleasant to the taste, and tar has a persistent unpleasant odor. Therefore, even its small mass can spoil the product. It’s the same in life, evenan insignificant but annoying little thing can ruin a good thing - a good undertaking, a pleasant impression, a cheerful mood, etc.

A good jump needs a good run-up.

1. This proverb talks about inertia. This is the phenomenon of maintaining the speed of a body in the absence of the action of other bodies on it.

2. The proverb is correct from the point of view of physics, because the greater the takeoff when jumping, the longer the inertial movement.

3. The meaning of this proverb is as follows: if you want to get a certain result, then there must be a good motivation “push”.

1. This proverb talks about the elastic force that arises in the body as a result of its deformation and tends to return the body to its original position.

2. The proverb is correct from the point of view of physics, since when a pea hits a wall, an elastic force arises, under the influence of which it easily bounces off the hard surface.

3. If you throw peas against the wall, they will fly off, so you say some things to a person, but they fly away from him, he does not perceive them, does not listen, so they say “like peas against a wall.”

If only you knew where to fall, then the straws would fall.

1. This talks about pressure. This is a quantity equal to the ratio of the force acting perpendicular to the surface to the area of ​​this surface.

2. The proverb is true from the point of view of physics, because when a person falls on a soft and hard surface, he produces different pressure. On a soft surface, the support area is larger, therefore, the pressure is less.

3. If it had been possible to foresee what had happened, precautions would have been taken. It is said to those who unexpectedly encounter obstacles, find themselves in a difficult situation, and also when expressing sympathy for the victim.

The ships are launched as if they were lubricated with lard.

1. This proverb talks about strength.friction that occurs when surfaces come into contact with each other.

2. The proverb is explained by the existence of friction and the use of lubricant to reduce it.

3. The meaning of this proverb is that for many everything goes smoothly and smoothly both in life and in the household, as if someone is helping them.

Having found out the physical meaning of the proverbs I had selected, I wondered if it was possible to conduct a physical experiment that would confirm or refute the truth of the proverb.

The proverb caught my attention: “You can’t heat the sea with a nail.”Of course, I understood that such a huge mass of water could not be heated by such a small, even hot piece of iron. But I still decided to calculate how many degrees a red-hot nail could change the temperature of various masses of water. To complete the experiment, I had to study additional material, since we will study thermal phenomena only next year.

To complete the task, I took the largest nail I could find. Nail length – 200 mm.

Using a scale, I found the mass of the nail; it turned out to be 70 g (0.07 kg).

The initial temperature of the nail is room temperature 20 o C , and the specific heat capacity of iron is 460 J/kg O C .

In the table of the dependence of the color of iron on temperature, I found out that the dark red color corresponds to approximately 680 o C and began to heat the nail. I calculated the amount of heat that the nail received when heated using the formula: Ԛ=сm(t 2 -t 1 ),

Ԛ=460*0.07(680-20), Ԛ=21252 J . Then she measured it and poured it into the container. 1 kg water at room temperature and dipped a heated nail into it.

According to the law of conservation of energy, the amount of heat given off by a nail and received by water are equal. I calculated how many degrees the water will heat up using the formula: ▲t= Ԛ/(c*m), ▲t=21252/(4200*1),▲t=5.06 o C,

Where 4200 J/(kg* o C ) – specific heat capacity of water.

Then I did a similar experiment two more times for a water mass of 100g (0.1kg) and got▲t=50.6 o C and for a mass of water 50g (0.05kg) the result is ▲t=101.2 about S.

After conducting an experiment, I concluded that a hot nail can heat only a very small mass of water, therefore, the proverb is true.

The next proverb that interested me:“As it comes around, so it will respond.”

This proverb is not always true. The response is obtained when sound is reflected from obstacles. This is the well-known echo. How accurately does the echo reproduce the phrase? This depends on the distance to the reflective surface.

Let the phrase last 2 s . Let's calculate the minimum distance at which the reflecting surface should be so that the echo does not overlap the phrase itself. This distance is equal to the speed of sound multiplied by half the duration of the phrase, i.e. 330m/s*1s= 330m . In addition, a screaming person may not hear his echo at all, for example, in a strong wind. This is due to the fact that wind speeds near the ground are almost always lower than at the top. Due to this, the wavefront of the sound emitted by a person bends upward and, when reflected, will pass above the person who is trying to hear his echo. For this experiment, I again had to look in the reference book, since sound waves are studied in 9th grade.

4. Results

The results showed the following:

- often proverbs vividly reflect physical phenomena;

Moreover, proverbs can be compared to physical laws or mathematical formulas, since their short form contains rich content.

The results of my research work confirmed my hypothesis that the proverb helps explain the phenomena and laws of physics.

But sometimes, under certain conditions, the proverb may not be true.

1. Conclusion

The work done will allow the collected material to be used in physics lessons in grades 7–9. Proverbs and sayings in the classroom help explain many physical phenomena, processes, and laws. Many of them have physical content and can be used as quality tasks.

Observations led to the following: the use of proverbs in physics lessons develops observation, creativity, and collectivism.

For myself, I decided to continue my research work on studying the relationship between folklore and physics, namely, whether there is a connection between riddles and physical phenomena.

1. Used Books

1. Peryshkin A.V. Physics. 7th grade Bustard Publishing House, 2012.
2. Kruglov Yu.G. Russian folk proverbs and sayings. Publishing house "Prosveshcheniye", 1990.
3. Internet resource:

25.01.2010, 19:32

There are leaks in the pipe, help me figure it out.
In my dacha on the second floor there are leaks in a pipe. I can’t understand why, help me figure it out. Leakage occurs only when the fireplace is lit.
The streaks appeared at the beginning of severe frosts when the temperature dropped below -10 degrees.
The fireplace-stove has been in operation since February 2009, then there were also frosts, but not so long and severe. There were no drips. There was no spring or autumn.
The stove maker who installed the “shield” says that he doesn’t know what’s wrong, like it’s most likely condensation that forms between the ceiling of the 2nd floor and the roof.
But there are doubts, since 1) The leaks are continuous. 2) The water is yellow and smelly - it smells strongly of smoked meat. In short, “sos”!! On the second floor there is such a stench that it is no longer possible to sleep.

Anatoly A

25.01.2010, 19:46

Andrey, we need to insulate the pipe between the roof and the ceiling, it’s cold there, and there’s also a draft, and all the problems will be eliminated.

25.01.2010, 23:55

thanks in advance to the experts

26.01.2010, 00:48

Andrey, I have the same situation. On the 2nd floor the chimney is wet. I come to the conclusion that it is condensation. It forms at a height of 4-5 m from the boiler and protrudes if there is no metal in the pipe. case. I have an asbestos-cement pipe inside - I was greedy for stainless steel, now I’m racking my brains.

Zhirnov Vladimir

26.01.2010, 01:58

Anatoly, thanks for the advice. The stove maker also talked about this. But I have this question in doubt! If this is condensation, then why is it brown and smoked?? Did it form from inside the stove? It should be as clean as a tear!! And why are the seams between the bricks wet and seem to be leaking? Or maybe condensation is passing through the cement from the inside? could this be? And another question - how to properly insulate a brick pipe in the attic space, so to speak, technology....
thanks in advance to the experts
Moisture comes out from inside.

There is a diagram.

26.01.2010, 02:48

Moisture comes out from inside.
It is useless to insulate the pipe itself, the brick is still cold.
Perhaps a sandwich insert will help. The reason is the design of the furnace.
There is a diagram.
Good day! Dear stove makers, what can you say about this material “Furanflex”, and the technology too? I read it on the Internet and I’m wondering if it will help get rid of condensation and damp plaster on the chimney? Thanks in advance.

Anatoly A

26.01.2010, 09:54

Ana]Andrey the pipe is placed up to the roof using clay mortar, and higher up using cement mortar. Your pipe is made of a high grade of brick M250, and maybe higher. While it’s winter, you need to wrap it with any non-flammable material, i.e. wrap it with insulation, in the summer you need to cover it with 7 cm of foamed gas silicate, not shoving any pieces of iron or anything into the pipe will help, extra costs.

Kataev Oleg

26.01.2010, 10:15

It won’t help to push any pieces of iron or anything into the pipe, extra costs.
That's right, after the piece of iron (it will flow down) - you'll have to install a condensate collector, but it will stink on the 1st floor too.

The reasons may be: violations of GOSTs - an umbrella (which should not exist at all), condensation from the smoke flows onto the pipe very low, it is cold (and along the outer surface of the pipe, if there are cracks, it drips inside), or the pipe is already soaked through with condensate with increased heating of the stove and fireplace with strong dilution with air and a decrease in smoke temperature.
Kataev Oleg
In the attic, condensation from the air can mix with pipe condensation; insulating the pipe there will not hurt.
I looked at the picture - condensation can (should) form in the attic insulation layer. Are there any drips above?

Zhirnov Vladimir

26.01.2010, 15:56

Anatoly A

26.01.2010, 16:33

Oleg, the inner contour of the sandwich will warm up faster than a brick.
It is useless to insulate bricks in the attic. Vladimir, answer why in the old days walls were made meter long, but now 2 bricks are enough.

Zhirnov Vladimir

26.01.2010, 16:59

Anatoly, insulate the pipe. Don’t forget to climb onto the roof and place a view on the pipe.

26.01.2010, 17:06

The stove maker who installed the “shield” says that he doesn’t know what’s wrong, like it’s most likely condensation that forms between the ceiling of the 2nd floor and the roof.
Anrey, increase the temperature of the exhaust gases. It can be increased if: 1) keep the forward stroke valve slightly open 2) increase the area of ​​the grate 3) remove one channel in the panel. It could also be due to damp wood.

26.01.2010, 17:06

Thanks everyone for your comments. But I still didn’t understand what to do. There are many opinions. It’s 100% impossible to install anything inside the pipe, it’s not serious. Drip from the outside - from the umbrella, flow down the outside - there are a few drips from the umbrella, but they do not get inside, there are also traces of drips on the outside of the pipe on the street, but they were there when 40 cm of snow fell. We cleaned off all the snow around the pipe. For the second weekend I’ve been monitoring the pipe on the roof to make sure no drips or drops get inside under the roof. The photo shows that everything is dry, there are no marks. This can be done to insulate the attic. The main thing is that it helps. Maybe there are other opinions???

26.01.2010, 17:13

Yes, one more thing - the firewood is really not very dry, I’ll try to pull out the valve, although this will reduce the heating of the shield, but oh well. increase the area of ​​the grate?? It seems I don’t have it... removing one channel in the shield is just destroying the shield, it won’t work. All this is good, but the main question remains, why is condensation smelly? Why! where does it come from!!

26.01.2010, 17:23

Yes, one more thing - the firewood is really not very dry, I’ll try to pull out the valve, although this will reduce the heating of the shield, but oh well. increase the area of ​​the grate?? It seems I don’t have it... removing one channel in the shield is just destroying the shield, it won’t work. All this is good, but the main question remains, why is condensation smelly? Why! where does it come from!! How do the channels run in your shield? if it’s vertical, then there’s nothing complicated - you break through the wall of the last channel at the bottom. No gatekeeper: o, what kind of fireplace do you have? - open? The condensation stinks, but because it is mixed with soot!

Anatoly A

26.01.2010, 17:31

You didn't answer what kind of brick it is.

26.01.2010, 17:52

Anatoly A - Baltic brick, I forgot the name.
sasha - cast iron fireplace Swedish Jotul "3", I'll attach a photo in a minute. Well, we had a little fun (no offense). How can leakage be mixed with soot?? This is leaking soot inside; by the way, it also flows through the cleaning doors like from a faucet for the first 5-10 hours of heating. Well, this is fixable and understandable. But the smoked ones are leaking on the outside - this is an incomprehensible problem. Looking forward to your comments, thanks in advance

26.01.2010, 17:57

Yes, and breaking the channel in the shield is not serious, it’s easier to open the forward damper only then, in severe frosts, until the brick really warms up

Anatoly A

26.01.2010, 18:00

Andrey was amused, the Baltic states are big.

26.01.2010, 18:04

I have no memory at all, I’ll write down the name in a minute.

26.01.2010, 18:14

Alexander Batsulin

26.01.2010, 18:25

I think you have a long-burning stove (How long does a stack of wood burn?)
If this is the case, then you cannot attach a shield to it. And the tube needs to be made into an insulated sandwich. This can be corrected by changing the combustion mode to intense in the potbelly stove.

26.01.2010, 18:31

How can leakage be mixed with soot?? It’s leaking soot inside; by the way, it’s also leaking through the cleaning doors
When the brick is completely saturated with “tar”, even on the first floor, then you will understand that the condensation comes with soot, although now it is still filtered by the brick: d. The temperature of the exhaust gases can be increased if you put a stainless steel screen on the glass of the combustion door, and always heat in cold weather with a completely open ashpit - it also increases the T, you can also insulate the “Yutul” itself :(

26.01.2010, 18:31

Exactly. Before doing all this, I consulted with three stove makers and 2 companies on the topic that I needed. Everyone approved and recommended just such an option so that the brick would not crack, etc. A fireplace or just a potbelly stove, a small shield, a brick chimney. Those. The reason is that we heat only on weekends. The stove has been in the cold for 5 days. In my old house there is only brick, and the firebox too. In 2 seasons, the whole stove was cracked. The stove makers came and looked and they said you can’t heat bricks quickly and intensely in cold weather. And so it happened. That’s why we did it with a fireplace - all the power of the fire is there - the brick is not exposed to strong heat - it gradually warms up. The idea was this. How can we spoil the brick? Unclear...

26.01.2010, 18:35

26.01.2010, 18:36

How can we spoil the brick? It’s not clear... Condensation will spoil it, and then it will stink even in the summer.

26.01.2010, 18:47

Well, of course, I’m not a stove builder, so I consulted before construction. Nobody said a word about condensation. Now there is a problem and somehow it needs to be solved. The fool should have worked for a stove maker as an assistant for a year :)

Anatoly A

26.01.2010, 18:51

Andrey, everything is clear for such a potbelly stove, the pipe 380x520 is a lot, you need 380x380, that is, close half of the outlet hole on top of the pipe.

Zhirnov Vladimir

26.01.2010, 18:56

The potbelly stove must be heated intensively, plus heat loss from it.
You need a brick firebox instead of a potbelly stove, or an insert into a sandwich pipe.
To do this, the pipe must be repositioned.

Anatoly A

26.01.2010, 19:11

Yes, it’s interesting how a company could recommend a shield for such a potbelly stove, it’s not known what channels, a five-piece pipe, it’s impressive.

26.01.2010, 19:25

pipe five, impressive. The only way out is to disassemble the five-piece pipe to the ceiling of the second floor, insert a valve and exit above the valve with a 4-piece pipe.

Alexander Batsulin

26.01.2010, 19:30

wood burns with an open ashpit - 30-45 minutes
in almost smoldering mode - 3-4 hours

I would suggest just not using the smoldering mode.

And how much wood burns in 30-45 minutes?

Zhirnov Vladimir

26.01.2010, 19:39

There is a diagram of the shield. At least he's warming up.
All advice will be like a poultice for the dead.

26.01.2010, 19:49

I would suggest just not using the smoldering mode.
I think if you heat intensively, there will be no condensation. You can use a thermocouple in the valve slot to check the temperature before redoing the pipe.

And how much wood burns in 30-45 minutes? Alexander, of course you need to heat it intensively, but for such a stove the diameter of the pipe at the firebox nozzle is like 13 cm, which means the output should be about the same, and not 2 times larger.

Kataev Oleg

26.01.2010, 20:01

Oleg, the inner contour of the sandwich will warm up faster than a brick.
It is useless to insulate brick in the attic.
I did not propose to insulate the pipe, I am generally against any insulation in the house, I suggested insulating the pipe from condensation - according to the description, this is condensation from the attic air mixed with smoke or condensate from it.
Kataev Oleg
Let me return to the assumption - condensation forms in the insulation layer on top from the warm air from the attic, which flows down the pipe, and the pipe is apparently already soaked through with condensation from the smoke. Everyone has already given advice - to warm up the pipe with intense combustion.
Kataev Oleg
Check the integrity of the attic insulation vapor barrier, if any.

Alexander Batsulin

26.01.2010, 20:18

Alexander, of course you need to heat it intensively, but for such a stove the diameter of the pipe at the firebox nozzle is like 13 cm, which means the output should be about the same, and not 2 times larger.

I still don’t understand how the comrade drowns?

26.01.2010, 20:28

I still don’t understand how the comrade drowns? With a shield, in order to warm it up, the stove needs to be heated intensively; it cannot be heated by slow burning.

Alexander Batsulin

26.01.2010, 21:27

So how does HE drown? ------Andrey?

Blagov Alex

26.01.2010, 22:25

Good health to everyone! Listen to Zhirnov, he says, remake the firebox. Condensate is released during the firebox in every firebox and in order to evaporate it you need a temperature and draft. But I understand that you don’t have it. Especially from pine firewood. And pine also releases resin, which at low temperatures is deposited on walls. In short: the valve is fully open, the blower is at max. birch and aspen firewood!

26.01.2010, 23:22

I understand the corrective measures. 1) Insulate the chedda part 2) heat at full power 3) if possible, do not push the valve to full 3) Switch to birch, aspen. (I took 50/50 coniferous firewood/aspen birch, so I saved a little. And there won’t be clean birch until the summer. I’ll have to add more heat.) I leave reworking the pipe as an emergency option, if it doesn’t help at all. I really wouldn’t want the resin waste to pass through the brick onto the outer surface. This is some kind of fantasy

Alexander Batsulin

26.01.2010, 23:55

Thanks everyone for your help. I'll tell you a little. I heat it like this - straight to full for 1 hour, then I close the damper. It is already walking along the shield until the house heats up and I make it smaller. This is about another 3-5 hours. Then at night there is more firewood and the economy mode is almost smoldering.

And these three to five hours - normal combustion or smoldering?

In your case, cancel smoldering altogether. Smoldering was invented for non-heat-intensive potbelly stoves in order to extend the heat transfer over time. When smoldering, the combustion is prolonged; the power released in the firebox is insufficient to maintain the required temperature in the cold (attic) brick pipe. Hence the condensation. You have a heat-intensive stove with a shield - there is no need for smoldering mode.

Anatoly A

27.01.2010, 10:27

Thanks everyone for your help. I'll tell you a little. I heat it like this - straight to full for 1 hour, then I close the damper. It is already walking along the shield until the house heats up and I make it smaller. This is about another 3-5 hours. Then at night there is more firewood and the economy mode is almost smoldering. In the morning, again, it was completely burning for 1-2 hours, then again almost smoldering. But this is when the frost is -10 -30 degrees.
Why is the chimney one and a half bricks? The stove maker made the calculation based on the size of the fireplace door so that it wouldn’t smoke. By the way, everything is ok in this regard.
I understand the corrective measures. 1) Insulate the chedda part 2) heat at full power 3) if possible, do not push the valve to full 3) Switch to birch, aspen. (I took 50/50 coniferous firewood/aspen birch, so I saved a little. And there won’t be clean birch until the summer. I’ll have to add more heat.) I leave reworking the pipe as an emergency option, if it doesn’t help at all. I really wouldn’t want the resin waste to pass through the brick onto the outer surface. This is some kind of fantasy Andrey, the entire stove needs to be completely redone, all measures are useless, extra money and nerves.

27.01.2010, 15:57

Burning goes on full for 3-5 hours. Remodeling the stove will be oh so difficult. Well, anyway, only in the summer. I’ll try until summer, maybe insulating the pipes in the attic space will help, and they also advised me to insulate the part of the pipe that is outside - make a box with insulation, who knows, what if it helps??

Alexander Batsulin

27.01.2010, 17:37

For starters, just try not to use the smoldering mode. For fun, insert a thermocouple (500 rubles) into the slot of the valve.

02.02.2010, 16:35

here - this weekend the combustion is only at full mode, the damper is open directly. There were some drips, but much less and only on the first day of heating. I hope that insulating the attic pipes will solve the problem. I'm waiting for zero temperatures to dismantle the ceiling of the 2nd floor.

Ivan Belarus

02.02.2010, 21:25

here - this weekend the combustion is only at full mode, the damper is open directly. There were some drips, but much less and only on the first day of heating. I hope that insulating the attic pipes will solve the problem. I’m waiting for zero temperatures to disassemble the ceiling of the 2nd floor. What kind of stove is there that you have to burn for 1 hour without heating and then another “3-5” hours to warm up. What a glutton! In short, wait until the summer and redo it, because this one ---( I don’t know how to make it softer:)) bad.

Blagov Alex

03.02.2010, 00:24

Insulation will not help! The pipe will freeze within a week anyway.

10.02.2010, 23:49

What kind of stove is that that needs to be heated for 1 hour and then another “3-5” hours to warm up? What a glutton! In short, wait until summer and redo it, because this one (I don’t know how to make it softer :)) is bad.
we are talking about warming up a house on 2 floors - from -15 to +20

Ivan Belarus

11.02.2010, 08:50

We are talking about warming up a house on 2 floors - from -15 to +20, anyway, heating directly for an hour is nonsense (buzz word :)), that’s a lot of firewood almost wasted! The potbelly stove is designed for a smaller shield, but you have what is in the photo and something else that is not visible. The shield is L-shaped. And they never mentioned how it was made inside - channels or caps. But everything affects traction. By the way, the stove maker (Misha) warned you about the size and condensation.

15.01.2011, 22:52

Dear forum members, Happy New Year! I have to raise this topic again. This summer I rebuilt the oven, there was a Swede with three horizontal passages, from the line of the stove above it was laid out on edge. I added another passage and extended it due to the drying compartment. For more heat capacity of the stove, he made it all in brick. There is a hog in the attic, he didn’t redo it, just repaired it, as cold weather was approaching. The draft in the stove is excellent, due to the first stroke being lowered to the level of the vent, the floor became warmer. The bottom of the stove warms up wonderfully, and after closing the damper, the main array also warms up. BUT!... With the onset of stable cold weather (-10 and below), I was saddened to see dirty stains on the pipe. Having crawled into the attic, I saw that the entire pipe and the hog were damp, and ice had appeared from the bottom of the hog. We heat it every day (once). Who can advise?

Sergey from Tver

15.01.2011, 23:33

With the onset of stable cold weather (-10 and below), I was saddened to see dirty stains on the pipe. I crawled into the attic and saw that the entire pipe and the hog were damp, and ice had appeared from the bottom of the hog. We drown every day (once). Who would advise?

Insulate the hog and pipe - URSA two layers + foil (other options are possible).

16.01.2011, 01:35

Andre 114, the heat loss is too large near the channels of your furnace, you need to break through the burnout, making the shortest path for heating the pipe, in the partition between the first and last channels. Maybe the channels where narrowed, what turns. Is the pipe brick or iron? Channel height?

16.01.2011, 23:02

The height of the channels is about 20 cm, only the first, the lowest is 14 cm. But the draft is wonderful. I already guessed that the heat removal is too high, but I don’t know how to burn out between the first and last channels, the channels are horizontal. I think that in my case there is no insulation I can’t do without pipes, if this doesn’t help, I’ll remove the top one in the summer.

16.01.2011, 23:17

After the condensation, the pipe will become overgrown with deposits, the brick will be saturated with condensation, something needs to be done before summer. Using a wood saw with a sharp nose, cut out the bricks where the partition is supposed to be, take out a couple of bricks and make a burn there. I use a long chisel to break out the partition with a hammer. A turn in the channel on one side means the burnout must be done on the other side, it can even be done in all channels. I also did the insulation of the pipe, it only helped in non-freezing weather, but in cold weather it still gets wet at first, icicles, then it starts leaking into the house. That’s it. I am more convinced of the correctness of Victor Selivan’s theory about the need for burnouts.

17.01.2011, 00:05

Thank you all for your responses and advice, I’ll try to solve the problem using the “scientific” method. I’ll post back later if it helps.

Sergey from Tver

17.01.2011, 11:37

After condensation, the pipe will become overgrown with deposits, the brick will become saturated with condensation, something needs to be done before summer. Using a wood hacksaw with a sharp nose, cut out the bricks where the partition is supposed to be, take out a couple of bricks and make a burn there. I use a long chisel to break out the partition with a hammer. A turn in the channel on one side means the burnout must be done on the other side, it can even be done in all channels. I also did the insulation of the pipe, it only saved me in non-frost weather, but in cold weather it still gets wet at first, icicles, and then leaks into the house. I am becoming more and more convinced of the correctness of Victor Selivan’s theory about the need for burnouts.

The reasoning is absolutely correct, but in this case, with a cold pipe and hog, there is good draft, that is, there is no formation of cold air pockets. This suggests that the internal cross-sectional areas of the hog and chimney are overestimated. Most likely, the hog and the pipe are older than the existing stove, and were left after dismantling the old Russian stove - a typical case of the seventies of the last century, when instead of Russian stoves, or in addition to them, heating shields of various designs were often installed. In those days, you could see pipes and hogs wrapped in old sweatshirts. This was done to prevent the formation of condensation and its freezing in the brickwork. Otherwise, in the summer it was necessary to repair the hog and the pipe, since the tightness of the masonry was broken. Increasing the temperature of the flue gases gives a good effect at a normal calculated ratio of the furnace power and the dimensions of the pipe section. In this case, this will lead to increased consumption of firewood.
Therefore, in the current situation, it is better to make insulation. It is necessary to put foil under the insulation and on top, gluing it with heat-resistant tape, otherwise the insulation will get wet and the required effect will not be achieved. In the summer, of course, it is worthwhile (if possible) to burn out this stove, but do not forget to eliminate the hog and install a chimney corresponding to the power of the stove, preferably a “sandwich”.
And further. There is no theory by Victor Selivan about the need for burnouts.
Material from Wikipedia:
“Theory is a doctrine, a system of ideas or principles. It is a set of generalized provisions that form a science or its section. Theory acts as a form of synthetic knowledge, within the boundaries of which individual concepts, hypotheses and laws lose their former autonomy and become elements of an integral system.”

17.01.2011, 12:12

I have a book by V. Selivan, in all furnaces there are suctions between the channels, this is the main design principle of the author. Of course, he promotes his idea as zealously as some, but his furnaces work. As for the foil on the first layer of insulation, I will take this into account future Indeed, the size of the pipe matters, you are right about this, of course. And I do burnouts in winter without damage to the stove and warming up the house, I can manage it in one day.

18.01.2011, 00:53

I have a house with a residential semi-basement, in which there is also a stove, but we heat it only in severe frosts so that the floor is warm. The chimney from the lower stove is combined with an array of the upper one and also rises to the hog (the back wall of the firebox at the top of the stove is precisely formed by this chimney), it can be used as a burnout, i.e. punch a small gap through which some of the smoke will go directly into the hog?

18.01.2011, 01:00

I have a house with a residential semi-basement, in which there is also a stove, but we heat it only in severe frosts so that the floor is warm. The chimney from the lower stove is combined with an array of the upper one and also rises to the hog (the back wall of the firebox at the top of the stove is precisely formed by this chimney), it can be used as a burnout, i.e. punch a small gap through which some of the smoke will go directly into the hog? No, the stoves must operate separately from each other. There will be suction when you heat the bottom one. If the valve was in place, then yes. Burnouts must be done in the oven itself.

18.01.2011, 01:07

I really didn’t think about it. I have a damper from the bottom stove at the top, okay, let’s think about it

14.12.2011, 00:04

Hello! I have a similar situation. We bought a house where no one lived for 10 years. In the summer, the stove maker moved the stove in the kitchen. It was an ordinary brick pipe of 2 bricks. In the fall, we began to lightly heat it. Problem No. 1 - it smokes slightly when starting the kindling, but the draft is good. Problem No. 2 - now they started heating regularly once a day for about 1.5 hours. The firewood was aspen and birch. After 2 weeks of heating, we noticed small wet spots on the pipe in the kitchen. We opened the pipe cleaning - there was a centimeter of water there. The water was clean. They rose into the attic - the whole pipe is stained. The pipe is plastered. It’s quite warm in the attic, and the weather here is still from 0 to +5. The attic is not insulated. I’m afraid what will happen in the cold? They started heating with a completely open vent. there is no water, but the pipe is damp and there are no drips. There is no summer valve in the slab, there is a shield with horizontal passages. What should I do? Is there any point in insulating the pipe?

14.12.2011, 12:14

Sergey from Tver

14.12.2011, 12:52

There is a hog. It comes from the bed in the room and goes out into the same pipe as the stove. But it does not go through the attic, but into the room. Probably, then there is no point in insulating it? And the stove was completely disassembled and made new. On the same place and almost the same in shape as the previous one. I don’t know how much the internal structure has been changed. The shield reached the ceiling, now it’s not so high. I don’t know if the former owner had such problems - he died 8 years ago. Are the recommendations the same?

This meant a hog in the attic. In the current situation and the recommended option, it is better to start firing stoves from the kitchen. In the future, instead of the reversible sleeve for the “bed”, it is necessary to install a separate pipe (preferably a “sandwich”).
A stove with horizontal channels and no summer operation is an additional “headache” when lighting and servicing the stove.

Zhirnov Vladimir

17.12.2011, 00:15

Not everything will go straight; don’t get carried away with the width of the burn. It will be better to warm up, because in every mountain. the channel will receive an additional portion of the mountains. gases If you have the entrance to the shield and the exit from the shield to the pipe in different corners, punch boldly and wider. You will get a straight-through shield

YARTSEVSKY INDUSTRIAL TECHNICAL SCHOOL
EXTRA-CLASSROOM ACTIVITY:
"PHYSICS B"
HIKE"
DEVELOPED: Physics teacher
Prokhorenkova O.A.

Purpose of the event: Show the connection between physics and various
natural phenomena that answer momentary questions,
arising in life, everyday life, in nature, etc., can be
are given only on the basis of knowledge of physical phenomena and
patterns;
“Include” students during an active hike
mental work;
Give an intellectual flavor to tourist trips,
going out into nature, filling rest stops, hours of rest and
outdoor games with interesting tasks related to
physics;
Teach to see physics in the world around us;
Developing a sense of camaraderie, mutual assistance,
competition, responsibility, cognitive interest;
Fostering a culture of communication, rules of conduct on a hike,
environmental education.
Objectives of the event: Review basic physical
concepts, formulas, laws and phenomena in their immediate
manifestation in nature, show the organic connection of the theory
and practice.
Methods: Verbal, visual, practical, active,
stimulating, encouraging.
Logistics: Traveling
equipment, inventory, improvised means, dishes, prizes,
paper, pens, calculator.

Literature:
1. M. E. Tulchinsky “Quality tasks in physics.”
Moscow, Dedication, 1972.
2. S. A. Tikhomirova “Physics in proverbs, riddles, and
fairy tales", Moscow, School press, 2002.
3. S. A. Tikhomirova “Didactic materials on
Physics", Moscow, School Press", 2003.
4. V. I. Elikin, L. D. Garmash “Physics and astronomy in
hiking and outdoors", Moscow, School Press, 2003.
5. Journals “Physics at school” No. 3 1997, No. 6 2001.
Brief guidelines
Many years of tourism have shown that this is
hugely effective and still little used
source of opportunities for knowledge of the environment
peace and human education. In the forest, by the river, by the fire
nature powerfully invades the life of a tourist, his soul
and the heart, subject to its laws. And everyone first
intuitively, and then consciously comes to the conclusion that
knowledge of the laws of nature is necessary.
A hike is a space for observation, active
mental work, this is space for communication,
organizing competitions, quizzes, productions
experiments and experiments.
Work experience allows us to assert that on hikes
students learn and apply the laws of physics with
more efficient than at a desk, since
They clearly feel the “action” of these laws of nature on
to yourself.
The content of this event is designed for
two-day hike with one overnight stay. Tourist
The group is divided into three teams, each of which

functions as a single unit throughout
campaign, i.e., not only takes part in competitions,
but also participates in all the everyday affairs of camp life.
Thus, the winning team is determined by
at the end of the trip, where the effective
team participation at all stages.
Intellectual competitions and outdoor games
it is necessary to rationally alternate in order to change
types of activities.
In order for the event to be completed
character is recommended for students at the end of the hike
offer to do optional homework.
Explanations for the event
Physics through the eyes of a tourist
1. A tourist should remain in wet clothes for a long time and
Wet shoes are dangerous: you can easily catch a cold.
Why?
2. Explain why, if our hands are frozen in the cold, we
blow on them to keep warm? And sometimes we blow on them
in summer. Why and what does this give?
3. From a person’s lungs when leaving along with air
Water vapor is always released. Why do we see
Is it only in winter or in very cold autumn?
4. Why tourists should not leave outside in winter
water in a glass bottle?
5. What is the temperature of the puddle in which the ice floats?
6. Place your palms so that they are illuminated by the sun
rays: remember the sensations. Now wet your palms
water and place it in the sun again.
Compare your feelings. How do you explain them?
7. You see a tractor in the distance. How do you determine if it is moving?
is he or is he worth it?

8. Are there “points” on the body of a walking tourist?
(name them) that move: A) progressively. B)
rotationally. B) oscillatory.
9. How, when approaching the railway track, in a simple way,
based on knowledge of physics, learn about the approach
trains?
What time of year are the electrical wires on?
the pillars along the road sag more, why?
Why did an experienced tourist take a white one on a summer hike?
Panama?
from the mountain?
boiling water?
10.
11.
12.
13.
14.
15.
16.
Why is it so much harder to walk uphill on a road than
Why is it impossible to cook meat high in the mountains even in
Why does it hurt to walk barefoot on mown grass?
Why is there fog in the meadow after sunset?
forms first in lowlands?
How to explain the spread in quiet
the air smells of meadow flowers, mown grass,
smoke?
Why is the man coming out of the water after
17.
bathing, feels cold, and this feeling is especially
in very windy weather?
Approaching the river, one of the tourists shouted loudly.
18.
After 5 s he heard an echo from the opposite
wooded shore. What is the distance to it? (Speed
sound is considered equal to 331 m/s)
Tourists left their bad clothes on the beach
19.
inflated volleyball ball. And for a while he
lay under the rays of the sun. At the same time, he became so swollen,
as if he had been pumped up. Explain what happened.
Why is there sand on the beach on a hot sunny day?
20.
does it get hotter than water? And at night it's colder
water?

21.
Travelers on a hot summer sunny day
decided to take a break. Where is the best place to sit?
rest: on a stone or on the ground? Why?
22.
Why is it difficult to chop wood directly on
earth?
Why is it so important when working with an ax and knife?
sharpen them well?
An axe, with a long or short handle
Is it easier to chop wood?
How to explain the action of a pipette? Syringe?
How to explain the “sucking” action of blood
the bandage with which the attendants tied a cut finger?
The attendants need to bring dry wood for the fire.
By what physical characteristics can you distinguish dry
raw wood?
Where is the best place to string a drying line?
washed clothes?
Which water, warm or cold, is better to drink with?
medicine so that it is absorbed faster?
How to keep milk cold in extreme heat?
Which water, hot or cold is better?
Soak peas for cooking soup so that it swells faster?
Does the water in the “tubes” of cooking pasta boil?
How to explain that if you cook porridge, for example
32.
33.
pearl barley, over high heat in a closed pot
lid, then when the lid is removed, it is from the inside
“strewn” with stuck grains?
Why is it recommended to salt boiled potatoes?
not right away, but when it’s almost ready?
Why does butter foam when you want it?
melt in a frying pan?
To prepare crackers, bread is sliced
23.
24.
25.
26.
27.
28.
29.
30.
31.
34.
35.
36.
thin slices or cubes. Why?
What role do salt and sugar play in
37.
canning?

or aluminum?
Why?
Which soup will cool faster: fatty or lean?
39.
40.
41.
42.
44.
45.
46.
47.
48.
49.
38.
Explain in physical language what is happening,
when we “strike” a match on a box. Why a match
lights up? A match can be lit by touching it
head to the fire. Are the methods of change the same?
match energy in both cases?
The heat of combustion of birch firewood is greater than
pine. How do you understand this expression?
Why does water extinguish the fire?
In which pot, open or closed, is there water?
does it boil faster?
Hot tea was left in a pot by the fire. Until what time
temperature it will cool down if the fire stops
throw firewood?
Which spoon is better to eat: wooden, steel?
43.
The tourist leaves nothing on his plate, sauce and
he picks up the gravy with bread crumbs. Why should he
does this work?
For lunch they distributed crackers instead of bread. That also happens
always on a long journey. Why tourists instead of bread
do they take crackers? What physical phenomena lie behind
basis for making bread crumbs?
Why do dew and fog form? Why after
Is there a lot of dew on a hot day?
What force causes raindrops to move towards
earth?
Having been caught in the rain, the tourists got pretty wet and
hung wet clothes on clotheslines. But by morning they are not
dried up. Why?
Where you need to, it seems, wait out the thunderstorm if it
50.
caught you: in the forest, on a mountain or on a hill, while swimming
in a pond?

51.
52.
Why does a mosquito squeak and a fly buzz?
How to determine if you see a bee flying?
Is she after the prey or is she returning to the hive with it?
Why do many animals sleep in cold weather?
53.
curled up in a ball?
54.
Why do water striders calmly move around?
surface of the reservoir?
Explain the meaning of the saying “Water is off a duck’s back” and
expression "Wet chicken".
What physical processes are involved in breathing?
55.
56.
57.
58.
fish?
Why does a dog stick out its tongue in extreme heat?
Why do they think that if they are clearly visible in the sky
Explain the sayings from the point of view of physics:
stars, then the night will be cold?
59.
 The dry spoon is tearing up your mouth.
 Goes like clockwork.
 It creaks like an unoiled cart.
 Slippery like burbot.
 Mow while there is dew.
Look at all the flora and fauna around you and
select examples of different types from what you see
mechanical movement.
Observe the flight of birds: what they “do” with
with your paws? How to explain this?
Look closely at how a caterpillar crawls along a leaf of a tree. A
now explain the way she moves from the position
physics.
Bend a tree branch. What kind of deformations do you think
appeared on its outer and inner surfaces?
Look at the aspen leaf. What kind of movement are they
commit and why do they tremble?

Listen to the noise of the trees. Why are they making noise?
What is the nature of these sounds.
Puzzles
 From prison one hundred sisters
Released into the open
They take them carefully
Rubbing my head against the wall,
They strike deftly once and twice -
Your head will light up. ………(Matches)
 We put firewood in it
Then he highlights
Lots of light and warmth.
And the food is being prepared. ……….(Bonfire)
 What is not visible from the fire, but everyone needs?......(Warmth)
 Sat down in the heat
Steam from the nose. ………..(Kettle)
 Small scoop
Dear friend to everyone,
They take it three times a day,
Then they put it back in place. ……..(Spoon)
 I am small and remote.
It's worth looking at me
I'll show you the way right away. ……….(Compos)
 You are behind her, she is away from you,
You are from her, she is behind you. ……(Shadow)
 Who, without studying, speaks all languages? …….(Echo)
 It pours into it, it pours out of it,
She trudges along the ground on her own. ……..(River)
 It curls around the nose, but cannot be picked up by hands. ……(Smell)
 Warms in winter, smolders in spring,
It dies in the summer and comes back to life in the fall. …….(Snow)
 If you put it in the oven, it will get wet,
If you put it in water, it will dry out. …….(Candle)

 In the evening it flies to the ground,
Night remains on earth,
In the morning it flies away again. …..(Dew)
 Come on, grab a handful of it
Can't hold it in a handful. …….(Water)
 Who doesn’t see me?
But everyone hears
And everyone can see my companion,
But no one hears. ……(Thunder, lightning)
 Shirts on the street, but sleeves in the hut. ….(Solar
rays)
 When is the sky lower than the earth? ……(When
reflected in the pond)
 A painted yoke hung across the river. ….
(Rainbow)
 Without a head, but with horns. …..(Month)
 What is visible only at night? ……(Stars)
 There are fireflies in the blue sky,
You can't reach them with your hands,
And one big firefly,
Curved like a worm. ……(Stars, month)
Proverbs
1. What physical phenomenon (concept, law)
says the proverb?
2. What is its physical meaning?
3. Is the proverb true from a physics point of view?
4. What is its everyday meaning?
Mechanics
 Run if you have to, but don’t fall flat on your face.
 You can’t move a stone alone, but an artel can move mountains
you will pick it up.
 Things went like clockwork.
 The plow shines from work.
 Ten are pulled uphill, downhill and one is pushed.
 A large tail is difficult to swing.
 You can’t get away with one wheel.
 A light hammer cannot be used to hammer a nail.

Hydro - aerostatics (dynamics)
 Even a small pebble will not float if it falls into
water.
 Water always flows down, smoke always rises
up.
 Only bubbles float well.
 The wind blows, winnows the grain.
 Beware of a quiet dog and quiet water.
Oscillations and waves
 Just as you don’t swing a swing, the time will come to stop.
 You can hear which string is broken by the sound.
 Whatever you click in the forest, that’s how it will respond.
 An empty barrel makes a lot of noise.
 You can’t cover your ears from strong thunder.
 If you don't beat the drum, it won't make a sound.
 A bat can see in the dark.
Molecular physics
 A fly in the ointment.
 Friendship is like glass: if you break it, you won’t be able to put it back together.
 There is a salty rope on the bag of salt.
 He ran towards the smell of meat, thought pilaf, but came running and looked:
donkeys are branded.
Heat and work
 Snow is a blanket for wheat.
 Wind is a helper to fire.
 If the poker is long, you won’t burn your hands.
 No matter how hot the water is, it will not burn down the house.
 I would ask the goose if his feet were cold.
 Don’t write off eating hot porridge from the middle, but take
calmly on the edge.

MCT of vapors, liquids and solids
 You will recognize the approach of winter by the frost, the approach of summer
in the rain.
 The salt marsh does not turn green, the fool does not grow wiser.
 The fog eats up the snow.
 Water has a flexible back.
 Flows like tar in the cold.
 You can’t paint a picture on water.
 Evil and good are like water and oil: they cannot mix.
 Talk to him about carrying water in a sieve.
 The less a tree bends, the easier it breaks.
 From a young person, like from wax: you can mold whatever you want.
 A roost with too many chickens on it collapses.
Team competition
1. Packing the backpack
“Is your backpack friend or foe?”
Packing a backpack is a “fusion” of science and art. Stacked
the shape of the backpack should be flat and high, the side
it, adjacent to the back, should be as accurately as possible
repeat the shape of the back, because in this case the pressure
there will be significantly less backpack on your back thanks to
greater support (P=F/S).
For the same reason, the backpack straps should be wide, and
It is desirable to have a semi-rigid belt at waist level.
The center of gravity of the backpack should be as close as possible
to the back at the level of the shoulder blades, that is, as close as possible to
vertical line passing through the biological center
the gravity of a person.

When packing a backpack, heavy things should be placed as
as close to the back as possible, and light equipment at its greatest
away from her.
2. By the fire
It's always nice to sit by the fire, the fire of which
disposed to conversation. You can talk about anything and everything
including the phenomena that we became familiar with at
physics lessons.
Lighting a fire is also a science. Need to collect
suitable firewood, stack it correctly and finally
light it using a minimum number of matches. And if
the matches are damp, or they were completely forgotten, what to do in
this situation? How can you make fire?
1. Using solar radiation and magnifying
glass, that is, a plane-convex lens. Need a lens
position it so that some of the sun's rays
walked through it and focused on easily
flammable material: paper, moss, hay, etc.
(This method is based on the ability
converging lens to focus rays at one point
and concentrate radiation energy in it.)
2. Hitting a piece of metal on silicon creates a spark.
directed towards flammable material.
3. Fire is created by rubbing a dry stick on wood.
(2 and 3 methods are based on the transition of mechanical
work in heat.)
3. Meals during the hike

The life and activity of the human body is connected with
continuous energy expenditure. These costs
consist of costs based on metabolism (then
is to maintain existence and functioning
body), for work and rest.
Any energy expenditure both in everyday life and in
the hike requires restoration. Required amount
The body receives energy from eating,
processing of organic substances contained in it:
proteins, fats, carbohydrates. Food is a kind of fuel,
supporting the vital activity and functioning of the body
person. But different foods have different energy levels
value, just as different fuels have different
heat of combustion: that is, burning in the body, 100 g of different
food releases different amounts of energy.
Dependence of energy costs on
type of tourism and category of complexity
hike (per person per day)

Type of tourism
Coefficient
nt
difficulties
Energy costs for different categories
difficulties. kJ
Lowest
Average
and I
1
Higher
2
3
4
5
Pedestrian
1,0
Water
0,8 – 0,9
Ski
Mountain
1,2
1.3
12
990
10
391
15
587
16
886
14 246 15
503
11 397 12
151
17 095 18
436
18 520 20
154
17 180
18 855
15 461
16 970
20 615
22 626
22 333
24 512
Energy consumption at different
types of activities and recreation (per 1 kg
body weight)
Cost type
Walking on a flat road with
speed:
4.2 km/h
6 km/h
8 km/h
Walking uphill on a slope with
speed:
2 km/h
Amount of energy consumption
(kJ)
13,4
18,85
41,9
26,9

Running on a flat road
speed:
9 km/h
Swimming speed:
10 m/min
Dream
Rest lying down without sleep
37,7
2,57
3,5
4,6
The main source of energy in food is carbohydrates. They give
up to 70-75% of required energy, proportion of proteins and fats
is 25-30%. They are mainly used
for the construction of new cells and the production of enzymes. IN
foods fats, proteins and carbohydrates should
is in the ratio 1:1:4.
Energy value and composition
staple food
Name
product
Rye bread
Wheat bread
Crackers
Digestible part
per 100 g
product in
grams
Bread products
5 1
42
7 0,4
Proteins, fats,
carbohydrates
Energy
value (kJ)
855
909
1425

Caramel
Chocolate
Jam
Carrot
Beet
Potato
Sweet
71

83
5 27
62
0,3
62
Vegetables
13
55
7
54
6
72
1676
1383
2154
1048
1131
1039
1320
The body requires maintaining an energy balance:
equality of energy consumption and amount of energy,
entering it with food. Knowing the energy costs
or another section of the route, you can use the following
tables to plan your diet: it
energy value (calorie content, composition and mass)
How to plan meals on a hike?
First of all, they create an energy equation
balance.
Take into account that normal food should be hot
and three times a day, i.e., consist of breakfast, lunch and dinner.

About 3 hours between breakfast and lunch, you can
make a “snack”, the energy value of which
should be 10% of the daily diet.
Now, knowing how to properly plan meals in
On a hike, you need to create a diet for the day according to the following scheme:
30%+10%+20%.
4. Your travel mug
When camping, every little thing is important, like a mug. How
Can a tourist do without it? But which mug to take with you to
hike? Of course, durable and light. Everyone knows what this is
material like glass is fragile, metals are stronger, and
plastics are lighter. Which mug should I take? What
you need to make sure that the aluminum mug does not burn
hands? How to make an unbreakable thermos mug?
5. Who will throw the pebble higher?
The pebbles should be approximately equal in mass and volume.
How will the judge determine whose pebble has risen to the highest level?
height?
6. Determine the average speed
ant
7. Follow your path and movement
There were 2 each, but they lay on the same line.
8. Take out the potato
In a mug filled with water on top, at the bottom lies
potato. Get her out. Tilt and move the mug
You can’t use foreign objects either
it is forbidden.

9. Thermal conductivity
Prove, using available materials, that
Terev's thermal conductivity is poor, while aluminum's is good.
10. Prepare jelly
You have a pot with a capacity of 4 liters and a ten-liter
bucket. How to use these items to pour into a pot 2
liter of water for making jelly?
11. Keep warm
Think of ways to keep lunch hot until...
arrival of the group if the wood has run out.
12. Egg
How can you tell if an egg is raw or not without breaking the shell?
boiled? Why?
13. Drown the bottle
An empty plastic bottle must be drowned in water.
How to do it?
14. Make a filter
Make a filter for water purification from natural
materials: pebbles or pebbles of different sizes or
sand, empty plastic bottle, gauze
Demonstrate it in action.
15. Make a beaker

Using a half-liter jar and a 200 gram glass
make a beaker with a division price out of a plastic bottle
100 g.

MOU-SOSH village. Stolypino

Teacher:

Lesson on the topic: "EVAPORATION"

1. Contents of the survey. (front)

What is meant by internal energy? Ways to change internal energy? Quantity of heat? In what states of aggregation can the same substance exist? What process is shown in the picture? What process is called melting? How does the internal energy change when a substance transitions from solid to liquid? Can you melt silver in an aluminum pan? (Answer: No, because the melting point of silver is higher than the melting point of aluminum.) Physical meaning of specific heat of fusion. Let's solve the riddle:

“It flowed, flowed, and then fell under the glass” (Answer: water and ice)

What process are we seeing here? (Answer: crystallization) What process is called hardening? At what temperature does the crystallization process occur? Explain the expression: “A worn-out fur coat does not keep you warm.” What will cool the water more: a piece of ice at 00C or the same mass of water at 00C? (Answer: Ice, because it will melt first and take away some of the heat.) The poet said: “Oh drop!”

“...She lived and flowed on the glass,

And the drop became a motionless piece of ice,

And the world has become less warm..."

Is the poet right? (Answer: No, t. we are talking about the process of crystallization, which is accompanied by the release of heat.)

On the task board:

TASK #1

Melting a copper ingot weighing 2 kg required 420 kJ of energy. Using these data, determine the specific heat of fusion of copper.

Given: Solution.

m =2 kg Q =E =m ·λ → λ=Q /m

E = 420 kJ=420000 J [λ ]=J/kg

λ =420000/2=210000=2.1 ·105 (J/kg)

λ=? Answer: 2.1 105 J/kg

Additional: ? Which of the two observers is colder during ice drift? (Answer: It is colder for the observer near the river, since ice absorbs a large amount of heat when melting)

? In which carriage are perishable products transported? (Answer: In cars painted white, since such a car heats up less)

TASK #2

What amount of heat is required to convert a piece of ice weighing 100 g, taken at a temperature of -2ºC, into water at a temperature of 0ºC?

Given: Solution.

m =100 g=0.1 kg 1. How much heat is needed to heat ice to

t 1=-2ºС melting temperature? Q 1=cm (t 2-t 1)

t 2=0ºС Q 1=2100 J/(ºС·kg) 0.1 kg(0ºС-(-2ºС))=420(J)

λ =3.4·105 J/kg 2. How much heat was used to melt the ice? Q 2=m λ

c = 2100 J/(ºС kg) Q 2 = 0.1 kg 3.4 105 J/kg = 3.4 104 J

3. Find the total amount of heat. Q = Q 1+Q 2

Q =? Q = 420+34000=34420=34.42 (kJ)

Answer: 34.42 kJ.

Additional:? Will the air temperature change if the weather conditions in the upper picture become the same as in the lower one, i.e. it snows? (Answer: The air temperature will rise where there has been snow. The formation of snow crystals is associated with the release of heat of fusion)

TASK #3

Solve the problem graphically, indicate the processes and formulas for calculation.

How much heat must be expended to melt a piece of tin weighing 2 kg, taken at a temperature of 32ºC and the resulting melt heated to 300ºC?

2 . Presentation of new material.

Let's start a story about warmth,

Let's remember everything and summarize now.

Energy! Work to the boil!

May laziness evaporate!

We won’t let our brains melt

We train them until exhaustion!

We will show diligence in learning,

Scientific ideas seeing charm!

We can overcome any challenge

And we can always help a friend!

But how difficult life can be

With that lady who is called: “Warmth”!

Topic of our lesson: "Evaporation and Condensation".

Why do puddles left after rain, freshly cut hay lying in the meadows, and washed clothes hanging in the sun quickly dry up on a clear summer day? Where does the water disappear to? We will try to get answers to these and other questions during the lesson.

First, let's remember the basic principles of molecular kinetic theory:

1. All bodies are made of molecules;

2. They are in continuous and chaotic movement;

3. Molecules interact with forces of attraction and repulsion.

What are the physical states of matter? We learned about the transition of a substance from a liquid to a solid state and vice versa.

In liquids, molecules move at different speeds. If a molecule with an energy greater than the average kinetic energy approaches the surface of the liquid, then it, overcoming the attraction of neighboring molecules, will fly out of the liquid. The combination of such escaping molecules forms steam. Evaporation is the formation of steam on the surface of a liquid. It occurs at any temperature.

Give examples of evaporation.

Evaporation is the phenomenon of the transition of molecules from liquid to vapor.

What determines the rate of evaporation of liquid? Let's do the following experiment. Place droplets of water, oil and alcohol on a piece of paper. Watch which liquid evaporates first.

The rate of evaporation depends on the type of liquid.

Give examples.

If we pour the same amount of water into a glass and a saucer, where will the water evaporate faster? Absolutely right in the saucer.

The rate of evaporation depends on the surface area.

You can do this experiment at home.

Give examples.

background:yellow">The rate of evaporation depends on the presence of wind.

Give examples.

When will laundry dry faster on a sunny or cloudy day? (drawing). Evaporation occurs at any temperature, but with increasing temperature the rate of evaporation increases.

The rate of evaporation depends on temperature.

Give examples.

It is interesting to note that not only liquids evaporate, but also solids. (picture) For example, the evaporation of ice can explain the fact that wet laundry dries out in the cold (If wet laundry is hung out in the cold, it will first freeze (water will turn into ice), and after a while it will dry out, therefore the ice will evaporate.) Evaporation of naphthalene , can be detected by smell. The evaporation of solids is also explained by the presence of fast particles in them that are able to overcome molecular forces.

So, what factors determine the rate of evaporation?

Why does dew fall on a summer evening when it gets cool?

Vapor molecules located above the liquid close to its surface return to the liquid. The evaporation process is always accompanied by a condensation process.

In an open vessel, evaporation occurs faster than condensation, so the amount of liquid in the vessel decreases. If the vessel is closed, then both evaporation and condensation will continue, but after some time the number of molecules leaving the liquid will become equal to the number of molecules returning to it. They say that the liquid-vapor system reaches equilibrium.

The space above the liquid closed in the vessel is filled with steam. Such vapor in equilibrium with a liquid is called saturated vapor. If the vessel is opened, some of the steam escapes into the environment, steam becomes unsaturated, again the number of molecules leaving the liquid becomes greater than the number of vapor molecules returning back.

? Do you think the temperatures of the air in the classroom and the water at “room” temperature are different? (after listening to the students’ answers, we make measurements that show that the water temperature is slightly lower than the air temperature.)

? Why do evaporating liquids cool?

font-size:24.0pt">? Coming out of the river after swimming, you feel cool, especially in windy weather. Why? (picture)

3. Consolidation of what has been learned in the lesson.

Evaporation is the most easily controlled method of reducing internal energy. Any conditions that impede evaporation disrupt the regulation of heat transfer from the body. Thus, leather, rubber, oilcloth, and synthetic clothing make it difficult to regulate body temperature.

Sweating plays an important role in the thermoregulation of the body; it ensures the constancy of the body temperature of a person or animal. Due to the evaporation of sweat, internal energy decreases, thanks to which the body cools.

Evaporation plays a big role in plant life. For example, sunflower or corn evaporates up to 200 kg of water in one growing season!

font-size: 24.0pt">? (drawing) Why does a dog stick out its tongue when it's hot?

font-size: 24.0pt">? Why can a camel go without water for a long time? / A camel can go without drinking for 2 weeks; it uses water very sparingly. A camel hardly sweats even in 40-degree heat. His body is covered with dense fur, which protects him from overheating and moisture evaporation. Never opens his mouth: after all, a lot of water evaporates from the mucous membrane of the oral cavity)

font-size: 24.0pt">? Why in the south is drinking water kept in unglazed clay jugs?

L.886. Why does grass clippings dry out faster in windy weather than in calm weather?

L.891. Why is a horse sweating after riding covered in a blanket in the cold?

L. 892. Wet wood burns worse than dry wood. Why?

? At what time of year will a puddle evaporate faster after rain in hot summer or cold late autumn? (drawing)

? Why are some semi-finished products, vegetables and fruits in stores packed in plastic or plastic bags?

4.D/z:§16,17, stubbornly).