Different experiences for children. Chemical and physical experiments for children at home

Helpful Hints

Children are always trying to find out something new every day and they always have a lot of questions.

They can explain some phenomena, or you can show how this or that thing, this or that phenomenon works.

In these experiments, children not only learn something new, but also learn create differentcrafts with which they can play further.

1. Experiments for children: lemon volcano

You will need:

2 lemons (for 1 volcano)

Baking soda

Food coloring or watercolors

Dishwashing liquid

Wooden stick or spoon (optional)

1. Cut off the bottom of the lemon so it can be placed on a flat surface.

2. On the reverse side, cut a piece of lemon as shown in the image.

* You can cut half a lemon and make an open volcano.

3. Take the second lemon, cut it in half and squeeze the juice out of it into a cup. This will be the backup lemon juice.

4. Place the first lemon (with the part cut out) on the tray and spoon "remember" the lemon inside to squeeze out some of the juice. It is important that the juice is inside the lemon.

5. Add food coloring or watercolor to the inside of the lemon, but do not stir.

6. Pour dishwashing liquid inside the lemon.

7. Add a full tablespoon of baking soda to the lemon. The reaction will start. With a stick or spoon, you can stir everything inside the lemon - the volcano will begin to foam.

8. To make the reaction last longer, you can gradually add more soda, dyes, soap and reserve lemon juice.

2. Home experiments for children: electric eels from chewing worms

You will need:

2 glasses

small capacity

4-6 chewable worms

3 tablespoons of baking soda

1/2 spoon of vinegar

1 cup water

Scissors, kitchen or clerical knife.

1. With scissors or a knife, cut lengthwise (just lengthwise - this will not be easy, but be patient) of each worm into 4 (or more) parts.

* The smaller the piece, the better.

* If scissors don't want to cut properly, try washing them with soap and water.

2. Mix water and baking soda in a glass.

3. Add pieces of worms to the solution of water and soda and stir.

4. Leave the worms in the solution for 10-15 minutes.

5. Using a fork, transfer the worm pieces to a small plate.

6. Pour half a spoon of vinegar into an empty glass and start putting worms in it one by one.

* The experiment can be repeated if the worms are washed with plain water. After a few attempts, your worms will begin to dissolve, and then you will have to cut a new batch.

3. Experiments and experiments: a rainbow on paper or how light is reflected on a flat surface

You will need:

bowl of water

Clear nail polish

Small pieces of black paper.

1. Add 1-2 drops of clear nail polish to a bowl of water. See how the varnish disperses through the water.

2. Quickly (after 10 seconds) dip a piece of black paper into the bowl. Take it out and let it dry on a paper towel.

3. After the paper has dried (it happens quickly) start turning the paper and look at the rainbow that is displayed on it.

* To better see the rainbow on paper, look at it under the sun's rays.

4. Experiments at home: a rain cloud in a jar

When small drops of water accumulate in a cloud, they become heavier and heavier. As a result, they will reach such a weight that they can no longer remain in the air and will begin to fall to the ground - this is how rain appears.

This phenomenon can be shown to children with simple materials.

You will need:

Shaving foam

Food coloring.

1. Fill the jar with water.

2. Apply shaving foam on top - it will be a cloud.

3. Let the child begin to drip food coloring onto the "cloud" until it starts to "rain" - drops of food coloring begin to fall to the bottom of the jar.

During the experiment, explain this phenomenon to the child.

You will need:

warm water

Sunflower oil

4 food coloring

1. Fill the jar 3/4 full with warm water.

2. Take a bowl and mix 3-4 tablespoons of oil and a few drops of food coloring in it. In this example, 1 drop of each of 4 dyes was used - red, yellow, blue and green.

3. Stir the dyes and oil with a fork.

4. Carefully pour the mixture into a jar of warm water.

5. Watch what happens - the food coloring will begin to slowly sink through the oil into the water, after which each drop will begin to disperse and mix with other drops.

* Food coloring dissolves in water, but not in oil, because. The density of oil is less than water (which is why it "floats" on water). A drop of dye is heavier than oil, so it will begin to sink until it reaches the water, where it begins to disperse and look like a small firework.

6. Interesting experiences: ina bowl in which colors merge

You will need:

- a printout of the wheel (or you can cut out your own wheel and draw all the colors of the rainbow on it)

Elastic band or thick thread

Glue stick

Scissors

A skewer or screwdriver (to make holes in the paper wheel).

1. Choose and print the two templates you want to use.

2. Take a piece of cardboard and use a glue stick to glue one template to the cardboard.

3. Cut out the glued circle from the cardboard.

4. Glue the second template to the back of the cardboard circle.

5. Use a skewer or screwdriver to make two holes in the circle.

6. Pass the thread through the holes and tie the ends into a knot.

Now you can spin your spinning top and watch how the colors merge on the circles.

7. Experiments for children at home: jellyfish in a jar

You will need:

Small transparent plastic bag

Transparent plastic bottle

Food coloring

Scissors.

1. Lay the plastic bag on a flat surface and smooth it out.

2. Cut off the bottom and handles of the bag.

3. Cut the bag lengthwise on the right and left so that you have two sheets of polyethylene. You will need one sheet.

4. Find the center of the plastic sheet and fold it like a ball to make a jellyfish head. Tie the thread around the "neck" of the jellyfish, but not too tight - you need to leave a small hole through which to pour water into the head of the jellyfish.

5. There is a head, now let's move on to the tentacles. Make cuts in the sheet - from the bottom to the head. You need about 8-10 tentacles.

6. Cut each tentacle into 3-4 smaller pieces.

7. Pour some water into the jellyfish's head, leaving room for air so the jellyfish can "float" in the bottle.

8. Fill the bottle with water and put your jellyfish in it.

9. Drop a couple of drops of blue or green food coloring.

* Close the lid tightly so that water does not spill out.

* Have the children turn the bottle over and watch the jellyfish swim in it.

8. Chemical experiments: magic crystals in a glass

You will need:

Glass cup or bowl

plastic bowl

1 cup Epsom salt (magnesium sulfate) - used in bath salts

1 cup hot water

Food coloring.

1. Pour Epsom salt into a bowl and add hot water. You can add a couple of drops of food coloring to the bowl.

2. Stir the contents of the bowl for 1-2 minutes. Most of the salt granules should dissolve.

3. Pour the solution into a glass or glass and place it in the freezer for 10-15 minutes. Don't worry, the solution isn't hot enough to crack the glass.

4. After freezing, move the solution to the main compartment of the refrigerator, preferably on the top shelf and leave overnight.

The growth of crystals will be noticeable only after a few hours, but it is better to wait out the night.

This is what the crystals look like the next day. Remember that crystals are very fragile. If you touch them, they are most likely to break or crumble immediately.

9. Experiments for children (video): soap cube

10. Chemical experiments for children (video): how to make a lava lamp with your own hands

If you want to arouse interest in science in your children, and the teacher at school can’t cope with this (but in fact he just doesn’t care), then it’s not necessary to hit the child on the head with a book or hire tutors. You, as a responsible parent, can conduct interesting and colorful scientific experiments right at home with the help of improvised means.

A little fantasy, and entertainment for the children who came to your child's birthday is ready.

1. Walking on chicken eggs

Even though eggs look very fragile, their shells are stronger than they appear. If the pressure is evenly distributed on the shell, then it can withstand very large loads. This can be used to show the kids a fun ball-walking trick and explain to them how it works.

Although we assume that the experience will be successful, it doesn’t hurt to play it safe, so it’s better to cover the floor with oilcloth or spread out garbage bags. Place a couple of trays of eggs on top, making sure none of them are defective or cracked. Also make sure that the eggs are evenly spaced, otherwise the load will not be evenly distributed.

Now you can gently stand on the eggs with bare feet, trying to distribute your weight evenly. The same principle is used in walking on nails or glass, but this should not be repeated with children. Don't repeat at all.

2. Non-Newtonian fluid

Most liquids on the planet practically do not change their viscosity with a change in the force that is applied to them. However, there are liquids that become almost solid when the force increases, and they are called non-Newtonian. You can make them right at home from improvised means. Show this experience to your child and he will be happy.

To make a non-Newtonian fluid, pour a glass of starch into a deep bowl, fill it with water in a ratio of 1:1. You can add food coloring for beauty. Start all this slowly mix until the mixture turns into a homogeneous mass.

If you slowly scoop up such a liquid with your hand, then it will simply drain through your fingers. But as soon as you apply force to it at speed or hit it hard, it immediately becomes hard. A great toy will come out for the next few hours for your child.

3. Jumping coin

A very interesting experience, as well as a trick if you want to convince others of your paranormal abilities. For this experiment at home, we need a regular bottle, as well as a coin that is slightly larger in diameter than the neck.

Chill the bottle in the refrigerator, or even better in the freezer. After that, moisten its neck with water and put a coin on top. For effect, you can put your hands on the bottle, warming it. The air inside the bottle will begin to expand and exit through the neck, tossing a coin into the air.

4. Volcano at home

The combination of baking soda and vinegar is a win-win option if you want to impress the kids. Just mold a small volcano out of plasticine or clay on a plate, and pour a few teaspoons of soda into its hole, pour some warm water and add red food coloring for entourage. After that, pour a small amount of vinegar into the vent and observe the reaction.

5. Lava Falls

A very effective and simple scientific experiment that allows children to demonstrate the principle of the interaction of liquids with different masses and densities.
Take a tall, narrow container (a flower vase or just a plastic bottle will do). Pour several glasses of water and a glass of vegetable oil into the vessel. Add bright food coloring to make the experience more visual and prepare a tablespoon of salt.

At first, the oil will float on the surface of the vessel, since it has a lower density. Start slowly pouring the salt into the vessel. The oil will begin to sink to the bottom, but when it reaches it, the salt will be freed from the viscous liquid, and the oil particles will begin to rise again, like grains of hot lava.

6. Money doesn't burn

This experience is suitable for wealthy people who only have to burn money. A great trick to surprise kids and adults alike. Of course, there is a risk of failing the performance, so respect the time frame.

Take any bill (depending on your capabilities) and soak it in a salted solution of alcohol and water in a 1: 1 ratio. Make sure that the bill is completely soaked, after which you can remove it from the liquid. Fix the bill in some holder and set it on fire.

Alcohol boils at a fairly low temperature and begins to evaporate much faster than water. Therefore, all the fuel will evaporate before the bill itself lights up.

7. Experience with colorful milk

For this fun experience, we will need full fat milk, some food coloring in different colors, and detergent.

Pour the milk into a bowl and add a few drops of food coloring in different parts of the container. Take a drop of detergent on the tip of your finger or soak a cotton swab with it and touch the surface of the milk right in the center of the plate. Watch how effectively the dyes begin to mix.

As you may have guessed, detergent and grease are incompatible things, and when you touch the surface, a reaction will start that will make the molecules move.

And get to know with them world and wonders of physical phenomena? Then we invite you to our "experimental laboratory", in which we will tell you how to create simple, but very interesting experiments for children.

Egg experiments

Egg with salt

The egg will sink to the bottom if you put it in a glass of plain water, but what happens if you add salt? The result is very interesting and can visually show interesting density facts.

You will need:

• Salt
• Tumbler.

Instruction:

1. Fill half the glass with water.

2. Add a lot of salt to the glass (about 6 tablespoons).

3. We interfere.

4. We carefully lower the egg into the water and observe what is happening.

Explanation

Salt water has a higher density than regular tap water. It is the salt that brings the egg to the surface. And if you add fresh salt water to the existing salt water, then the egg will gradually sink to the bottom.

Egg in a bottle

Did you know that a boiled whole egg can be easily bottled?

You will need:

• A bottle with a neck diameter smaller than the diameter of the egg
• Hard boiled egg
• Matches
• some paper
• Vegetable oil.

Instruction:

1. Lubricate the neck of the bottle with vegetable oil.

2. Now set fire to the paper (you can just have a few matches) and immediately throw it into the bottle.

3. Put an egg on the neck.

When the fire goes out, the egg will be inside the bottle.

Explanation

The fire provokes the heating of the air in the bottle, which comes out. After the fire goes out, the air in the bottle will begin to cool and contract. Therefore, a low pressure is formed in the bottle, and the external pressure pushes the egg into the bottle.

The balloon experiment

This experiment shows how rubber and orange peel interact with each other.

You will need:

• Balloon
• Orange.

Instruction:

1. Blow up the balloon.

2. Peel the orange, but don't throw away the orange peel.

3. Squeeze the orange peel over the balloon, after which it will burst.

Explanation.

Orange peel contains limonene. It is able to dissolve rubber, which is what happens to the ball.

candle experiment

An interesting experiment showing burning a candle in the distance.

You will need:

• regular candle
• Matches or lighter.

Instruction:

1. Light a candle.

2. Extinguish it after a few seconds.

3. Now bring the burning flame to the smoke coming from the candle. The candle will start burning again.

Explanation

The smoke rising from an extinguished candle contains paraffin, which quickly ignites. The burning vapors of paraffin reach the wick, and the candle begins to burn again.

Vinegar Soda

A balloon that inflates itself is a very interesting sight.

You will need:

• Bottle
• A glass of vinegar
• 4 teaspoons of soda
• Balloon.

Instruction:

1. Pour a glass of vinegar into the bottle.

2. Pour the soda into the bowl.

3. We put the ball on the neck of the bottle.

4. Slowly put the ball vertically, while pouring soda into a bottle of vinegar.

5. Watching the balloon inflate.

Explanation

When baking soda is added to vinegar, a process called soda quenching takes place. During this process, carbon dioxide is released, which inflates our balloon.

invisible ink

Play with your child as a secret agent and create your invisible ink.

You will need:

• half a lemon
• Spoon
• A bowl
• Cotton swab
• White paper
• Lamp.

Instruction:

1. Squeeze some lemon juice into a bowl and add the same amount of water.

2. Dip a cotton swab into the mixture and write something on the white paper.

3. Wait for the juice to dry and become completely invisible.

4. When you're ready to read the secret message or show it to someone else, heat the paper by holding it close to a light bulb or fire.

Explanation

Lemon juice is an organic substance that oxidizes and turns brown when heated. Diluted lemon juice in water makes it hard to see on paper, and no one will know there's lemon juice in it until it's warmed up.

Other substances which work in the same way:

• Orange juice
• Milk
• onion juice
• Vinegar
• Wine.

How to make lava

You will need:

• Sunflower oil
• Juice or food coloring
• Transparent vessel (can be a glass)
• Any effervescent tablets.

Instruction:

1. First, pour the juice into a glass so that it fills about 70% of the volume of the container.

2. Fill the rest of the glass with sunflower oil.

3. Now we are waiting for the juice to separate from the sunflower oil.

4. We throw a pill into a glass and observe an effect similar to lava. When the tablet dissolves, you can throw another one.

Explanation

The oil separates from the water because it has a lower density. Dissolving in the juice, the tablet releases carbon dioxide, which captures parts of the juice and lifts it up. The gas is completely out of the glass when it reaches the top, and the juice particles fall back down.

The tablet hisses due to the fact that it contains citric acid and soda (sodium bicarbonate). Both of these ingredients react with water to form sodium citrate and carbon dioxide gas.

Ice experiment

At first glance, you might think that the ice cube, being on top, will eventually melt, due to which it should cause the water to spill, but is it really so?

You will need:

• Cup
• Ice cubes.

Instruction:

1. Fill the glass with warm water up to the rim.

2. Lower the ice cubes carefully.

3. Watch the water level carefully.

As the ice melts, the water level does not change at all.

Explanation

When water freezes, turning into ice, it expands, increasing its volume (which is why even heating pipes can burst in winter). Water from melted ice takes up less space than the ice itself. So when the ice cube melts, the water level stays about the same.

How to make a parachute

find out about air resistance making a small parachute.

You will need:

• Plastic bag or other lightweight material
• Scissors
• A small load (perhaps some figurine).

Instruction:

1. Cut out a large square from a plastic bag.

2. Now we cut the edges so that we get an octagon (eight identical sides).

3. Now we tie 8 pieces of thread to each corner.

4. Don't forget to make a small hole in the middle of the parachute.

5. Tie the other ends of the threads to a small load.

6. Use a chair or find a high point to launch the parachute and check how it flies. Remember that the parachute should fly as slowly as possible.

Explanation

When the parachute is released, the load pulls it down, but with the help of the lines, the parachute occupies a large area that resists the air, due to which the load slowly lowers. The larger the surface area of ​​the parachute, the more this surface resists falling, and the slower the parachute will descend.

A small hole in the middle of the parachute allows air to flow through it slowly, rather than flopping the parachute to one side.

How to make a tornado

Find out, how to make a tornado in a bottle with this fun science experiment for kids. The items used in the experiment are easy to find in everyday life. Made homemade mini tornado much safer than the tornado that is shown on television in the steppes of America.

If you're wondering how to celebrate a child's birthday, you might like the idea of ​​putting on a children's science show. In recent years, scientific holidays have become increasingly popular. Almost all children like entertaining experiments and experiments. For them, this is something magical and incomprehensible, which means interesting. The cost of hosting a science show is quite high. But this is no reason to deny yourself the pleasure of watching the astonished children's faces. After all, you can manage on your own, do not resort to the help of animators and holiday agencies.

In this article, I made a selection of simple chemical and physical experiments and experiments that can be done at home without any problems. Everything you need to carry them out is probably in your kitchen or first aid kit. You don't need any special skills either. All you need is a desire and a good mood.

I tried to collect simple but spectacular experiences that will be of interest to children of different ages. For each experiment, I prepared a scientific explanation (not for nothing that I studied to be a chemist!). To explain to the children the essence of what is happening or not is up to you. It all depends on their age and level of training. If the children are small, you can skip the explanation and go straight to the spectacular experience, saying only that they will be able to learn the secrets of such “miracles” when they grow up, go to school and begin to study chemistry and physics. Perhaps this will arouse their interest in studying in the future.

Although I chose the safest experiments, they still need to be taken very seriously. All manipulations are best performed with gloves and a bathrobe, at a safe distance from children. After all, the same vinegar and potassium permanganate can cause trouble.

And, of course, when conducting a children's science show, you need to take care of the image of a mad scientist. Your artistry and charisma will largely determine the success of the event. Turning from an ordinary person into a funny scientific genius is not at all difficult - all you need to do is ruffle your hair, put on big glasses and a white coat, smear yourself with soot and make an expression corresponding to your new status. This is what a typical mad scientist looks like.

Before you arrange a science show at a children's holiday (by the way, it can be not only a birthday, but any other holiday), you should do all the experiments in the absence of children. Rehearse that there were no unpleasant surprises later. Few things can go wrong.

Children's experiments can be carried out without a festive occasion - just so that it is interesting and useful to spend time with a child.

Choose the experiences you like the most and write a script for the holiday. In order not to heavily burden children with science, albeit entertaining, dilute the event with fun games.

Part 1. Chemical show

Attention! When conducting chemical experiments, you should be extremely careful.

foam fountain

Almost all children love foam - the more the better. Even kids know how to make it: for this you need to pour shampoo into water and shake it well. But can the foam form by itself without shaking and be also colored?

Ask the children what they think foam is. What is it made of and how can it be obtained. Let them express their guesses.

Then explain that foam is bubbles filled with gas. This means that for its formation, some substance is needed, of which the walls of the bubbles will consist, and a gas that will fill them. For example, soap and air. When soap is added to water and stirred, air enters these bubbles from the environment. But gas can be obtained in another way - in the process of a chemical reaction.

Option 1

• hydroperite tablets;
• potassium permanganate;
• liquid soap;
• water;
• a glass vessel with a narrow neck (preferably beautiful);
• cup;
• hammer;
• tray.

Statement of experience

1. Using a hammer, crush the hydroperite tablets into powder and pour it into a flask.
2. Place the flask on the tray.
3. Add liquid soap and water.
4. Prepare an aqueous solution of potassium permanganate in a glass and pour it into a flask with hydroperide.

After the solutions of potassium permanganate (potassium permanganate) and hydroperide (hydrogen peroxide) merge, a reaction will begin to occur between them, accompanied by the release of oxygen.

4KMnO 4 + 4H 2 O 2 = 4MnO 2 ¯ + 5O 2 + 2H 2 O + 4KOH

Under the action of oxygen, the soap present in the flask will begin to foam and lick out of the flask, forming a kind of fountain. Due to potassium permanganate, part of the foam will turn pink.

You can see how this happens in the video.

Important: the glass vessel must have a narrow neck. Do not take the resulting foam in your hands and do not give it to children.

Option 2

Another gas, such as carbon dioxide, is also suitable for the formation of foam. You can paint the foam in any color you wish.

For the experiment you will need:

• plastic bottle;
• soda;
• vinegar;
• food coloring;
• liquid soap.

Statement of experience

1. Pour into a bottle of vinegar.
2. Add liquid soap and food coloring.
3. Pour in soda.

Result and scientific explanation

When soda and vinegar interact, a violent chemical reaction occurs, accompanied by the release of carbon dioxide CO 2.

Under its action, the soap will begin to foam and lick out of the bottle. The dye will color the foam in the color you choose.

Merry ball

What's a birthday without balloons? Show the children the balloon and ask how to inflate it. The guys, of course, will answer that by mouth. Explain that the balloon is inflated by the carbon dioxide we exhale. But you can inflate the balloon with them in another way.

For the experiment you will need:

• soda;
• vinegar;
• bottle;
• balloon.

Statement of experience

1. Pour a teaspoon of baking soda into the balloon.
2. Pour into a bottle of vinegar.
3. Put the ball on the neck of the bottle and pour the soda into the bottle.

Result and scientific explanation

As soon as baking soda and vinegar come into contact, a violent chemical reaction will begin, accompanied by the release of carbon dioxide CO 2 . The balloon will begin to inflate before your eyes.

CH 3 -COOH + Na + - → CH 3 -COO - Na + + H 2 O + CO 2

If you take a smiley balloon, it will impress the guys even more. At the end of the experiment, tie a balloon and give it to the birthday person.

See the video for a demonstration of the experience.

Chameleon

Can liquids change their color? If yes, why and how? Before setting up an experiment, be sure to ask the children these questions. Let them think. They will remember how water is colored when you rinse a brush with paint in it. Is it possible to decolorize the solution?

For the experiment you will need:

• starch;
• alcohol burner;
• test tube;
• cup;
• water.

Statement of experience

1. Pour a pinch of starch into a test tube and add water.
2. Drop some iodine. The solution will turn blue.
3. Light the burner.
4. Heat the test tube until the solution becomes colorless.
5. Pour into a glass of cold water and immerse the test tube into it so that the solution cools down and turns blue again.

Result and scientific explanation

When interacting with iodine, the starch solution turns blue, since a dark blue compound I 2 * (C 6 H 10 O 5) n is formed. However, this substance is unstable and, when heated, again decomposes into iodine and starch. When cooled, the reaction goes in the opposite direction and we again see how the solution turns blue. This reaction demonstrates the reversibility of chemical processes and their dependence on temperature.

I 2 + (C 6 H 10 O 5) n => I 2 * (C 6 H 10 O 5) n

(iodine - yellow) (starch - clear) (dark blue)

rubber egg

All children know that the eggshell is very fragile and can break from the slightest blow. It would be nice if the eggs didn't beat! Then you wouldn't have to worry about bringing the eggs home when your mom sends you to the store.

For the experiment you will need:

• vinegar;
• raw chicken egg;
• cup.

Statement of experience

1. To surprise the kids, you need to prepare for this experience in advance. 3 days before the holiday, pour vinegar into a glass and place a raw chicken egg in it. Leave for three days so that the shell has time to completely dissolve.
2. Show the children a glass with an egg and invite everyone to say a magic spell together: “Tryn-dyryn, boom-brown! Egg, become rubber!
3. Take out the egg with a spoon, wipe it with a napkin and demonstrate how it can now be deformed.

Result and scientific explanation

Eggshells are made up of calcium carbonate, which dissolves when reacted with vinegar.

CaCO 3 + 2 CH 3 COOH \u003d Ca (CH 3 COO) 2 + H 2 O + CO 2

Due to the presence of a film between the shell and the contents of the egg, it retains its shape. What an egg looks like after vinegar, look at the video.

Secret letter

Children love everything mysterious, and therefore this experiment will surely seem like real magic to them.

Take an ordinary ballpoint pen and write on a piece of paper a secret message from aliens or draw some kind of secret sign that no one but the guys present can know about.

When the children read what is written there, say that it is a big secret and the inscription must be destroyed. Moreover, magical water will help you erase the inscription. If you treat the inscription with a solution of potassium permanganate and vinegar, then with hydrogen peroxide, the ink will be washed off.

For the experiment you will need:

• potassium permanganate;
• vinegar;
• hydrogen peroxide;
• flask;
• cotton buds;
• ball pen;
• paper;
• water;
• paper towels or napkins;
• iron.

Statement of experience

1. Draw a picture or an inscription on a sheet of paper with a ballpoint pen.
2. Pour a little potassium permanganate into a test tube and add vinegar.
3. Soak a cotton swab in this solution and swipe over the inscription.
4. Take another cotton swab, moisten it with water and wash off the resulting stains.
5. Blot with a tissue.
6. Apply hydrogen peroxide to the inscription and blot again with a napkin.
7. Iron with an iron or put under a press.

Result and scientific explanation

After all the manipulations, you will get a blank sheet of paper, which will surprise the children very much.

Potassium permanganate is a very strong oxidizing agent, especially if the reaction occurs in an acidic environment:

MnO 4 ˉ+ 8 H + + 5 eˉ = Mn 2+ + 4 H 2 O

A strong acidified solution of potassium permanganate literally burns many organic compounds, turning them into carbon dioxide and water. Acetic acid is used to create an acidic environment in our experiment.

The product of the reduction of potassium permanganate is manganese dioxide Mn0 2, which has a brown color and precipitates. To remove it, we use hydrogen peroxide H 2 O 2 , which reduces the insoluble compound Mn0 2 to a highly soluble manganese (II) salt.

MnO 2 + H 2 O 2 + 2 H + = O 2 + Mn 2+ + 2 H 2 O.

I propose to see how the ink disappears on the video.

The power of thought

Before setting up the experiment, ask the children how to put out the candle flame. They, of course, will answer you that you need to blow out the candle. Ask if they believe you can put out a fire with an empty glass by casting a magic spell?

For the experiment you will need:

• vinegar;
• soda;
• glasses;
• candles;
• matches.

Statement of experience

1. Pour soda into a glass and pour vinegar over it.
2. Light some candles.
3. Bring a glass of soda and vinegar to another glass, tilting it slightly so that the carbon dioxide produced during the chemical reaction flows into the empty glass.
4. Carry a glass of gas over the candles, as if pouring them over the flame. At the same time, make a mysterious expression on your face and say some incomprehensible spell, for example: “Chicken-burs, mur-plee! Flame, don't burn anymore!" Children must think it's magic. You will reveal the secret after the enthusiasm.

Result and scientific explanation

When baking soda and vinegar interact, carbon dioxide is released, which, unlike oxygen, does not support combustion:

CH 3 -COOH + Na + - → CH 3 -COO - Na + + H 2 O + CO 2

CO 2 is heavier than air, and therefore does not fly up, but settles down. Thanks to this property, we are able to collect it in an empty glass, and then “pour it” onto candles, thereby extinguishing their flame.

How it happens, look at the video.

Part 2. Entertaining physical experiments

strong jean

This experiment will allow children to look at the usual action for them from the other side. Place an empty wine bottle in front of the children (it is better to remove the label first) and push the cork into it. And then turn the bottle upside down and try to pop the cork out. Of course, you won't succeed. Ask the children if there is any way to get the cork out without breaking the bottle? Let them say what they think about it.

Since the cork cannot be picked up through the neck, it means that one thing remains - to try to push it out from the inside out. How to do it? You can call the genie for help!

The genie in this experiment will be a large plastic bag. To heighten the effect, the package can be painted with colored markers - draw eyes, nose, mouth, pens, some patterns.

So, for the experiment you will need:

• empty wine bottle;
• cork;
• plastic bag.

Statement of experience

1. Twist the bag with a tube and put it into the bottle so that the handles are outside.
2. Turning the bottle over, ensure that the cork is on the side of the package closer to the neck.
3. Inflate the package.
4. Gently begin to pull the bag out of the bottle. A cork will come out with it.

Result and scientific explanation

As the bag inflates, it expands inside the bottle, expelling air from the bottle. When we begin to pull out the bag, a vacuum is created inside the bottle, due to which the walls of the bag wrap around the cork and drag it out with them. This is such a strong gin!

To see how this happens, watch the video.

Wrong glass

On the eve of the experiment, ask the children what happens if you turn a glass of water upside down. They will answer that the water will pour out. Say that this happens only with the "correct" glasses. And you have a “wrong” glass from which water does not pour out.

For the experiment you will need:

• glasses with water;
• paints (you can do without them, but this way the experience looks more spectacular; it is better to use acrylic paints - they give more saturated colors);
• paper.

Statement of experience

1. Pour into glasses of water.
2. Add color to it.
3. Moisten the rims of the glasses with water and place a sheet of paper over them.
4. Press the paper firmly against the glass, holding it with your hand, turn the glasses upside down.
5. Wait for a while until the paper sticks to the glass.
6. Remove your hand quickly.

Result and scientific explanation

Surely all children know that we are surrounded by air. Although we do not see him, he, like everything around him, has weight. We feel the touch of air, for example, when the wind blows on us. There is a lot of air, and therefore it presses on the earth and everything that is around. This is called atmospheric pressure.

When we apply paper to a wet glass, it sticks to its walls due to surface tension.

In an inverted glass, between its bottom (now at the top) and the surface of the water, a space is formed filled with air and water vapor. The force of gravity acts on the water, which pulls it down. This increases the space between the bottom of the glass and the surface of the water. At constant temperature, the pressure in it decreases and becomes less than atmospheric. The total pressure of air and water on the paper from the inside is slightly less than the air pressure from the outside. Therefore, water does not pour out of the glass. However, after a while, the glass will lose its magical properties, and the water will still pour out. This is due to the evaporation of water, which increases the pressure inside the glass. When it becomes more than atmospheric, the paper will fall off and the water will pour out. But you can't bring it up to this point. So it will be more interesting.

You can watch the progress of the experiment on the video.

Gluttonous bottle

Ask the children if they like to eat. Do they like to eat glass bottles? No? Bottles are not eaten? And here they are wrong. They don’t eat ordinary bottles, but magic bottles are not even averse to having a bite.

For the experiment you will need:

• boiled chicken egg;
• a bottle (to heighten the effect, the bottle can be painted or somehow embellished, but so that the children can see what is happening inside it);
• matches;
• paper.

Statement of experience

1. Peel off the shell of the boiled egg. Who eats eggs in shell?
2. Set fire to a piece of paper.
3. Throw the burning paper into the bottle.
4. Put the egg on the neck of the bottle.

Result and scientific explanation

When we throw burning paper into the bottle, the air in it heats up and expands. By closing the neck with an egg, we prevent the flow of air, as a result of which the fire goes out. The air in the bottle cools and contracts. A pressure difference is created inside the bottle and outside, due to which the egg is sucked into the bottle.

For now, that's all. However, over time, I plan to add a few more experiments to the article. At home, you can, for example, experiment with balloons. Therefore, if you are interested in this topic, add the site to your bookmarks or subscribe to the newsletter. When I add something new, I will inform you about it by e-mail. It took me a lot of time to prepare this article, so please respect my work and when copying materials, be sure to put an active hyperlink to this page.

If you have ever done home experiments for children and put on a science show, write about your impressions in the comments, attach a photo. It will be interesting!

We bring to your attention 10 amazing magic tricks, experiments, or science shows that you can do with your own hands at home.
At your child's birthday party, weekend or vacation, make the most of your time and become the center of attention of many eyes! 🙂

An experienced organizer of scientific shows helped us in preparing the post - Professor Nicolas. He explained the principles behind a particular focus.

1 - Lava Lamp

1. Surely many of you have seen a lamp that has a liquid inside that imitates hot lava. Looks magical.

2. Water is poured into sunflower oil and food coloring (red or blue) is added.

3. After that, we add effervescent aspirin to the vessel and observe a striking effect.

4. During the reaction, colored water rises and falls through the oil without mixing with it. And if you turn off the light and turn on the flashlight, the "real magic" will begin.

: “Water and oil have different densities, and also have the property of not mixing, no matter how we shake the bottle. When we add effervescent tablets inside the bottle, they dissolve in water and begin to release carbon dioxide and set the liquid in motion.”

Want to put on a real science show? More experiences can be found in the book.

2 - Experience with soda

5. Surely at home or in a nearby store there are several cans of soda for the holiday. Before you drink them, ask the guys the question: “What happens if you submerge soda cans in water?”
Drown? Will they swim? Depends on the soda.
Invite the children to guess in advance what will happen to a particular jar and conduct an experiment.

6. We take the cans and gently lower them into the water.

7. It turns out that despite the same volume, they have different weights. That is why some banks sink and others do not.

Commentary by Professor Nicolas: “All our cans have the same volume, but the mass of each can is different, which means that the density is different. What is density? This is the value of mass divided by volume. Since the volume of all cans is the same, the density will be higher for one of them, whose mass is greater.
Whether a jar will float in a container or sink depends on the ratio of its density to that of water. If the density of the can is less, then it will be on the surface, otherwise the can will go to the bottom.
But what makes a regular cola can denser (heavier) than a diet drink can?
It's all about the sugar! Unlike ordinary cola, where granulated sugar is used as a sweetener, a special sweetener is added to diet cola, which weighs much less. So how much sugar is in a typical soda can? The difference in mass between regular soda and its dietary counterpart will give us the answer!”

3 - Paper cover

Ask the audience a question: “What happens if you turn a glass of water over?” Of course it will spill! And if you press the paper to the glass and turn it over? The paper will fall and the water will still spill on the floor? Let's check.

10. Carefully cut out the paper.

11. Put on top of the glass.

12. And carefully turn the glass over. The paper has stuck to the glass, as if magnetized, and the water does not pour out. Miracles!

Commentary by Professor Nicolas: “Although it’s not so obvious, but in fact we are in the real ocean, only in this ocean there is not water, but air that presses on all objects, including you and me, we just got used to it to this pressure that we do not notice it at all. When we cover a glass of water with a piece of paper and turn it over, water presses on the sheet on one side, and air on the other side (from the very bottom)! The air pressure turned out to be greater than the pressure of the water in the glass, so the leaf does not fall.

4 - Soap Volcano

How to make a small volcano erupt at home?

14. You will need baking soda, vinegar, some dish detergent and cardboard.

16. Dilute vinegar in water, add washing liquid and tint everything with iodine.

17. We wrap everything with dark cardboard - this will be the “body” of the volcano. A pinch of soda falls into the glass, and the volcano begins to erupt.

Commentary by Professor Nicolas: “As a result of the interaction of vinegar with soda, a real chemical reaction occurs with the release of carbon dioxide. And liquid soap and dye, interacting with carbon dioxide, form a colored soap foam - that's the eruption.

5 - Candle pump

Can a candle change the laws of gravity and lift water up?

19. We put a candle on a saucer and light it.

20. Pour tinted water on a saucer.

21. Cover the candle with a glass. After a while, the water will be drawn into the glass against the laws of gravity.

Commentary by Professor Nicolas: What does the pump do? Changes pressure: increases (then water or air begins to “run away”) or, conversely, decreases (then gas or liquid begins to “arrive”). When we covered the burning candle with a glass, the candle went out, the air inside the glass cooled, and therefore the pressure decreased, so the water from the bowl began to be sucked in.

Games and experiments with water and fire are in the book "Experiments of Professor Nicolas".

6 - Water in the sieve

We continue to study the magical properties of water and surrounding objects. Ask someone present to put on a bandage and pour water through it. As we can see, it passes through the holes in the bandage without any difficulty.
Bet with others that you can make it so that water will not pass through the bandage without any additional tricks.

22. Cut off a piece of bandage.

23. Wrap a bandage around a glass or champagne glass.

24. Turn the glass over - the water does not spill out!

Commentary by Professor Nicolas: “Due to such a property of water as surface tension, water molecules want to be together all the time and it is not so easy to separate them (they are such wonderful girlfriends!). And if the size of the holes is small (as in our case), then the film does not tear even under the weight of water!”

7 - Diving bell

And to secure your honorary title of Water Mage and Master of the Elements, promise that you can deliver paper to the bottom of any ocean (or bath or even a basin) without soaking it.

25. Have those present write their names on a piece of paper.

26. We fold the sheet, put it in a glass so that it rests against its walls and does not slide down. Immerse the leaf in an inverted glass to the bottom of the tank.

27. Paper stays dry - water can't get to it! After you pull out the sheet - let the audience make sure that it is really dry.