Chemical experiments at home for adults. The concept of electric charges. How your hands feel at different water temperatures

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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 they can show clearly how this or that thing, this or that phenomenon works.

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

1. Experiments for children: lemon volcano

You will need:

2 lemons (for 1 volcano)

Baking soda

Food coloring or watercolor paints

Dishwashing liquid

Wooden stick or spoon (if desired)

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

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

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

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

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

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

6. Pour dish soap inside the lemon.

7. Add a spoonful to the lemon baking soda. The reaction will begin. You can use a stick or spoon to 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 made from chewing worms

You will need:

2 glasses

Small capacity

4-6 gummy worms

3 tablespoons baking soda

1/2 spoon of vinegar

1 cup water

Scissors, kitchen or stationery knife.

1. Using scissors or a knife, cut lengthwise (precisely lengthwise - it won't be easy, but be patient) each worm into 4 (or more) pieces.

* The smaller the piece, the better.

*If the scissors do not 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 spoonful of vinegar into empty glass and start putting worms into it one by one.

* The experiment can be repeated if you wash the worms 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. Watch how the varnish spreads 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 (this happens quickly) start turning the paper and look at the rainbow that appears on it.

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

4. Experiments at home: rain cloud in a jar

As small drops of water accumulate in a cloud, they become heavier and heavier. Eventually 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 using 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. Have your child start dripping food coloring onto the “cloud” until it starts to “rain” - drops of coloring begin to fall to the bottom of the jar.

During the experiment, explain this phenomenon to your child.

You will need:

Warm water

Sunflower oil

4 food colors

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

2. Take a bowl and stir 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. Using a fork, stir the coloring and oil.

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

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

* Food coloring dissolves in water, but not in oil, because... oil density less water(that’s why it “floats” on the water). The dye droplet is heavier than the oil, so it will begin to sink until it reaches the water, where it will begin to disperse and look like a small fireworks display.

6. Interesting experiments: ina circle in which the colors merge

You will need:

- 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

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

1. Select 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 cardboard.

4. TO back side Glue the second template onto the cardboard circle.

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

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

Now you can spin your 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. Place 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 a thread in the area of the jellyfish's "neck", but not too tightly - you need to leave a small hole through which to pour water into the jellyfish's head.

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 approximately 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 a bottle with water and put your jellyfish in it.

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

* Close the lid tightly to prevent water from spilling out.

* Let 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 glass or bowl

Plastic bowl

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

1 cup hot water

Food coloring.

1. Place Epsom salts in 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 is not so hot that the glass will crack.

4. After freezing, transfer 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 overnight.

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

9. Experiments for children (video): soap cube

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

Chemist is a very interesting and multifaceted profession, uniting under its wing many different specialists: chemical scientists, chemical technologists, analytical chemists, petrochemists, chemistry teachers, pharmacists and many others. We decided to celebrate the upcoming Chemist’s Day 2017 with them, so we selected several interesting and impressive experiments in the field under consideration, which even those who are as far from the profession of a chemist as possible can repeat. The best chemical experiments at home - read, watch and remember!

When is Chemist's Day celebrated?

Before we begin to consider our chemical experiments, let us clarify that traditionally Chemist’s Day is celebrated in the countries of the post-Soviet space at the very end of spring, namely on the last Sunday of May. This means that the date is not fixed: for example, in 2017 Chemist’s Day is celebrated on May 28. And if you work in the chemical industry, or are studying a specialty in this area, or are otherwise directly related to chemistry on duty, then you have every right to join the celebration on this day.

Chemical experiments at home

Now let's get down to the main thing and begin to perform interesting chemical experiments: it is best to do this together with young children, who will definitely perceive what is happening as a magic trick. Moreover, we tried to select such chemical experiments, reagents for which can be easily obtained at a pharmacy or store.

Experiment No. 1 - Chemical traffic light

Let's start with a very simple and beautiful experiment, which received this name for good reason, because the liquid participating in the experiment will change its color exactly to the colors of the traffic light - red, yellow and green.

You will need:

indigo carmine;
glucose;
caustic soda;
water;
2 transparent glass containers.

Don't let the names of some ingredients scare you - you can easily buy glucose tablets at a pharmacy, indigo carmine is sold in stores as a food coloring, and you can find caustic soda in a hardware store. It is better to take tall containers, with a wide base and a narrower neck, for example, flasks, to make them easier to shake.

But what is interesting about chemical experiments is that there is an explanation for everything:

By mixing glucose with caustic soda, i.e. sodium hydroxide, we obtained an alkaline solution of glucose. Then, by mixing it with a solution of indigo carmine, we oxidize the liquid with oxygen, which it was saturated with during pouring from the flask - this is the reason for the appearance of the green color. Next, glucose begins to work as a reducing agent, gradually changing color to yellow. But by shaking the flask, we again saturate the liquid with oxygen, allowing chemical reaction go through this circle again.

You will get an idea of how interesting it looks in real life from this short video:

Experiment No. 2 - Universal acidity indicator from cabbage

Children love interesting chemical experiments with colorful liquids, it’s no secret. But we, as adults, responsibly declare that such chemical experiments look very spectacular and interesting. Therefore, we advise you to conduct another “color” experiment at home - a demonstration amazing properties red cabbage. It, like many other vegetables and fruits, contains anthocyanins - natural indicator dyes that change color depending on the pH level - i.e. degree of acidity of the environment. This property of cabbage will be useful to us in order to obtain further multi-colored solutions.

What we need:

1/4 red cabbage;
lemon juice;
baking soda solution;
vinegar;
sugar solution;
Sprite type drink;
disinfectant;
bleach;
water;
8 flasks or glasses.

Many of the substances on this list are quite dangerous, so be careful when performing simple chemical experiments at home, wear gloves and, if possible, safety glasses. And don’t let children get too close - they may knock over the reagents or the final contents of the colored cones and even want to try them, which should not be allowed.

Let's get started:

How do these chemical experiments explain the color changes?

The fact is that light falls on all objects that we see - and it contains all the colors of the rainbow. Moreover, each color in the spectrum has its own wavelength, and the molecules different shapes, in turn, reflect and absorb these waves. The wave that is reflected from the molecule is the one that we see, and this determines what color we perceive - because other waves are simply absorbed. And depending on what substance we add to the indicator, it begins to reflect only rays of a certain color. Nothing complicated!

For a slightly different version of this chemical experiment, with fewer reagents, see the video:

Experiment No. 3 - Dancing jelly worms

We continue to do chemical experiments at home - and we will conduct the third experiment on everyone’s favorite jelly candies in the form of worms. Even adults will find it funny, and children will be absolutely delighted.

Take the following ingredients:

a handful of gummy worms;
vinegar essence;
ordinary water;
baking soda;
glasses - 2 pcs.

When choosing suitable candies, choose smooth, chewy worms without sugar coating. To make them less heavy and easier to move, cut each candy lengthwise into two halves. So, let's begin some interesting chemical experiments:

Make a solution of warm water and 3 tablespoons of soda in one glass.
Place the worms there and keep them there for about fifteen minutes.
Fill another deep glass with essence. Now you can slowly drop the jellies into the vinegar, watching how they begin to move up and down, which is in some way similar to a dance:

Why is this happening?

It's simple: baking soda, in which the worms are soaked for a quarter of an hour, is sodium bicarbonate, and the essence is an 80% solution of acetic acid. When they react, water, carbon dioxide in the form of small bubbles and sodium salt of acetic acid are formed. It is carbon dioxide in the form of bubbles that the worm becomes overgrown with, rises up, and then descends when they burst. But the process still continues, causing the candy to rise on the resulting bubbles and fall until it is completely completed.

And if you are seriously interested in chemistry, and want Chemist’s Day to become your professional holiday in the future, then you will probably be interested in watching next video, which tells in detail about the typical everyday life of chemistry students and their exciting educational and scientific activities:

Take it for yourself and tell your friends!

Experiments with eggs

Egg with salt

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

You will need:

Salt
Tumbler.

Instructions:

1. Fill half the glass with water.

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

3. We interfere.

4. Carefully lower the egg into the water and watch what happens.

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 to an existing one salt water fresh, the egg will gradually sink to the bottom.

Egg in a bottle

Did you know that a boiled whole egg can easily be placed in a bottle?

You will need:

A bottle with a neck diameter smaller than the diameter of an egg
Boiled egg hard-boiled
Matches
Some paper
Vegetable oil.

Instructions:

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

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

3. Place an egg on the neck.

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

Explanation

The fire provokes 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 compress. Therefore, a low pressure is created in the bottle, and the external pressure forces the egg into the bottle.

Ball experiment

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

You will need:

Balloon
Orange.

Instructions:

1. inflate balloon.

2. Peel the orange, but orange peel(zest) do not throw away.

3. Squeeze orange zest over the ball, after which it will burst.

Explanation.

Orange zest contains the substance limonene. It is capable of dissolving rubber, which is what happens to the ball.

Candle experiment

An interesting experiment showing ignition of a candle from a distance.

You will need:

Regular candle
Matches or lighter.

Instructions:

1. Light a candle.

2. After a few seconds, put it out.

3. Now bring the burning flame close 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 paraffin vapor reaches the wick, and the candle begins to burn again.

Soda with vinegar

A balloon that inflates itself is a very interesting sight.

You will need:

Bottle
Glass of vinegar
4 teaspoons soda
Balloon.

Instructions:

1. Pour a glass of vinegar into the bottle.

2. Pour baking soda into the ball.

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

4. Slowly place the ball vertically while pouring the baking soda into the bottle with vinegar.

5. We watch the balloon inflate.

Explanation

If you add baking soda to vinegar, a process called soda slaking occurs. During this process, carbon dioxide is released, which inflates our balloon.

Invisible ink

Play secret agent with your child and create your own invisible ink.

You will need:

Half a lemon
Spoon
A bowl
Cotton swab
White paper
Lamp.

Instructions:

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 white paper.

3. Wait until the juice dries and becomes completely invisible.

4. When you are 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 is lemon juice until it warms up.

Other substances which work on the same principle:

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.

Instructions:

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

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

3. Now wait until the juice separates from the sunflower oil.

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

Explanation

Oil separates from 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 to the top. The gas leaves the glass completely when it reaches the top, causing the juice particles to fall back down.

The tablet fizzes due to what it contains citric acid and baking 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 on top will eventually melt, which should cause the water to spill, but is this really so?

You will need:

Cup
Ice cubes.

Instructions:

1. Fill the glass with warm water to the very top.

2. Carefully lower the ice cubes.

3. Watch the water level carefully.

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

Explanation

When water freezes to ice, it expands, increasing its volume (which is why even heating pipes can burst in winter). The water from melted ice takes up less space than the ice itself. Therefore, when the ice cube melts, the water level remains approximately 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 (possibly some kind of figurine).

Instructions:

1. Cut 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 weight.

6. We 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 weight pulls it down, but with the help of the lines, the parachute takes up a large area that resists the air, causing the weight to slowly descend. How larger area surface 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 having the parachute tumble to one side.

How to make a tornado

Find out, how to make a tornado in a bottle with this fun scientific experiment for children. The items used in the experiment are easy to find in everyday life. Made home mini tornado much safer than the tornadoes shown on television in the American steppes.

Friends, good afternoon! Agree, how interesting it is sometimes to surprise our little ones! They have such a funny reaction to . It shows that they are ready to learn, ready to absorb new material. The whole world opens up at this moment before them and for them! And we, parents, act as real wizards with a hat from which we “pull out” something incredibly interesting, new and very important!

What will we get out of the “magic” hat today? We have 25 experimental experiments there for children and adults. They will be prepared for babies of different ages to get them interested and involved in the process. Some can be carried out without any preparation, using handy tools that each of us has at home. For others, we will buy some materials so that everything goes smoothly. Well? I wish us all good luck and move forward!

Today will be a real holiday! And in our program:

So let's decorate the holiday by preparing an experiment for a birthday, New Year, March 8, etc.

Ice soap bubbles

What do you think will happen if simple bubbles that are tiny in 4 years loves to inflate them, run after them and burst them, inflate them in the cold. Or rather, straight into a snowdrift.

I'll give you a hint:

they will burst immediately!
take off and fly away!
will freeze!

Whatever you choose, I can tell you right away, it will surprise you! Can you imagine what will happen to the little one?!

But in slow motion it’s just a fairy tale!

I'm complicating the question. Is it possible to repeat the experiment in the summer in order to get a similar option?

Choose answers:

Yes. But you need ice from the refrigerator.

You know, although I really want to tell you everything, this is exactly what I won’t do! Let there be at least one surprise for you too!

Paper vs water

The real one is waiting for us experiment. Is it really possible for paper to defeat water? This is a challenge for everyone who plays Rock-Paper-Scissors!

What we need:

Paper;
Water in a glass.

Cover the glass. It would be good if its edges were a little damp, then the paper would stick. Carefully turn the glass over... The water does not leak!

Let's inflate balloons without breathing?

We have already carried out chemical children's experiments. Remember, the very first room for very little babies was a room with vinegar and soda. So, let's continue! And we use the energy, or rather, the air, that is released during the reaction for peaceful and inflatable purposes.

Ingredients:

Soda;
Plastic bottle;
Vinegar;
Ball.

Pour soda into the bottle and fill 1/3 with vinegar. Shake lightly and quickly pull the ball onto the neck. When it is inflated, bandage it and remove it from the bottle.

Such a small experience can show even in kindergarten.

Rain from a cloud

We need:

Jar of water;
Shaving foam;
Food coloring (any color, several colors possible).

We make a cloud of foam. A big and beautiful cloud! Entrust this to the best cloud maker, your child. 5 years. He will definitely make her real!

author of the photo

All that remains is to distribute the dye over the cloud, and... drip-drip! Rain is coming!

Rainbow

Maybe, physics the children are still unknown. But after they make Rainbow, they will definitely love this science!

Deep transparent container with water;
Mirror;
Flashlight;
Paper.

Place a mirror at the bottom of the container. We shine a flashlight on the mirror at a slight angle. All that remains is to catch the Rainbow on paper.

Even easier is to use a disk and a flashlight.

Crystals

There is a similar, but already finished game. But our experience interesting the fact that we ourselves, from the very beginning, will grow crystals from salt in water. To do this, take a thread or wire. And let's keep it for several days in such salty water, where the salt can no longer dissolve, but accumulates in a layer on the wire.

Can be grown from sugar

Lava jar

If you add oil to a jar of water, it will all accumulate on top. It can be tinted with food coloring. But in order for the bright oil to sink to the bottom, you need to pour salt on top of it. Then the oil will settle. But not for long. The salt will gradually dissolve and release beautiful droplets of oil. The colored oil rises gradually, as if a mysterious volcano is bubbling inside the jar.

Eruption

For toddlers 7 years It will be very interesting to blow up, demolish, destroy something. In a word, this is a real element of nature for them. and therefore we create a real, exploding volcano!

We sculpt from plasticine or make a “mountain” from cardboard. We place a jar inside it. Yes, so that its neck fits the “crater”. Fill the jar with soda, dye, warm water and... vinegar. And everything will begin to “explode, lava will rush up and flood everything around!

A hole in the bag is not a problem

This is what convinces book of scientific experiments for children and adults Dmitry Mokhov "Simple Science". And we can check this statement ourselves! First, fill the bag with water. and then we'll pierce it. But we won’t remove what we pierced with (a pencil, a toothpick or a pin). How much water will we leak? Let's check!

Water that doesn't spill

Only such water still needs to be produced.

Take water, paint and starch (as much as water) and mix. Eventually - plain water. You just can't spill it!

"Slippery" egg

In order for the egg to actually fit into the neck of the bottle, you need to set fire to the piece of paper and throw it into the bottle. Cover the hole with an egg. When the fire goes out, the egg will slip inside.

Snow in summer

This trick is especially interesting to repeat in the warm season. Remove the contents of the diapers and wet them with water. All! The snow is ready! Nowadays such snow is easy to find in children's toys in stores. Ask the seller artificial snow. And there is no need to ruin diapers.

Moving snakes

To make a moving figure we will need:

Sand;
Alcohol;
Sugar;
Soda;
Fire.

Pour alcohol onto a pile of sand and let it soak. Then pour sugar and baking soda on top and set it on fire! Oh, what a funny this experiment! Children and adults will love what the animated snake gets up to!

Of course, this is for older children. And it looks pretty scary!

Battery train

The copper wire, which we twist into an even spiral, will become our tunnel. How? Let's connect its edges, forming a round tunnel. But before that, we “launch” the battery inside, only attaching neodymium magnets to its edges. And consider that you have invented a perpetual motion machine! The locomotive moved on its own.

Candle swing

To light both ends of the candle, you need to clear the wax from the bottom down to the wick. Heat a needle over the fire and pierce the candle in the middle with it. Place the candle on 2 glasses so that it rests on the needle. Burn the edges and shake slightly. Then the candle itself will swing.

Elephant tooth paste

The elephant needs everything big and a lot. Let's do it! Dissolve potassium permanganate in water. Add liquid soap. The last ingredient, hydrogen peroxide, turns our mixture into a giant elephant paste!

Let's drink a candle

For greater effect, color the water in a bright color. Place a candle in the middle of the saucer. We set it on fire and cover it with a transparent container. Pour water into a saucer. At first the water will be around the container, but then it will all be saturated inside, towards the candle.
Oxygen is burned, the pressure inside the glass decreases and

A real chameleon

What will help our chameleon change color? Cunning! Instruct your little one 6 years decorate in different colors plastic plate. And cut out the chameleon figure yourself on another plate, similar in shape and size. All that remains is to loosely connect both plates in the middle so that the top one, with the cut out figure, can rotate. Then the color of the animal will always change.

Light up the rainbow

Place Skittles in a circle on a plate. Pour water inside the plate. Just wait a little and we get a rainbow!

Smoke rings

Cut off the bottom plastic bottle. And stretch the edge of the cut balloon to get a membrane, as in the photo. Light up incense stick and put it in a bottle. Close the lid. When there is continuous smoke in the jar, unscrew the lid and tap on the membrane. Smoke will come out in rings.

Multicolored liquid

To make everything look more impressive, paint the liquid in different colors. Make 2-3 batches of multi-colored water. Pour water of the same color into the bottom of the jar. Then carefully pour along the wall from different sides vegetable oil. Pour water mixed with alcohol over it.

Egg without shell

Place a raw egg in vinegar for at least a day, some say for a week. And the trick is ready! An egg without a hard shell.
The egg shell contains calcium in abundance. Vinegar reacts actively with calcium and gradually dissolves it. As a result, the egg is covered with a film, but completely without a shell. It feels like an elastic ball.
The egg will also be larger than its original size, as it will absorb some of the vinegar.

Dancing men

It's time to get rowdy! Mix 2 parts starch with one part water. Place a bowl of starchy liquid on the speakers and turn up the bass!

Decorating the ice

We decorate ice figures of different shapes using water and salt mixed with food paint. The salt eats away at the ice and seeps deep, creating interesting passages. Great idea for color therapy.

Launching paper rockets

We empty the tea bags of tea by cutting off the top. Let's set it on fire! Warm air picks up the package!

There are so many experiences that you will definitely find something to do with your children, just choose! And don’t forget to come back again for a new article, which you’ll hear about if you subscribe! Invite your friends to visit us too! That's all for today! Bye!

Who loved at school laboratory works in chemistry? It was interesting, after all, to mix something with something and get a new substance. True, it didn’t always work out as described in the textbook, but no one suffered because of this, right? The main thing is that something happens, and we see it right in front of us.

If you're not a chemist in real life and don't deal with much more complex experiments every day at work, then these experiments that you can do at home will definitely amuse you, at least.

Lava lamp

For the experience you need:
— Transparent bottle or vase
— Water
- Sunflower oil
- Food coloring
— Several effervescent tablets “Suprastin”

Mix water with food coloring and add sunflower oil. There is no need to stir, and you won’t be able to. When a clear line between water and oil is visible, throw a couple of Suprastin tablets into the container. We look at the lava flows.

Since the density of oil is lower than that of water, it remains on the surface, with the effervescent tablet creating bubbles that carry water to the surface.

Elephant toothpaste

For the experience you need:
- Bottle
— Small cup
— Water
— Dish detergent or liquid soap
- Hydrogen peroxide
— Fast-acting nutritional yeast
- Food coloring

Mix liquid soap, hydrogen peroxide and food coloring in a bottle. In a separate cup, dilute the yeast with water and pour the resulting mixture into the bottle. We look at the eruption.

Yeast produces oxygen, which reacts with hydrogen and is pushed out. The soap suds create a dense mass that erupts from the bottle.

Hot Ice

For the experience you need:
— Capacity for heating
— Transparent glass cup
- Plate
– 200 g baking soda
— 200 ml of acetic acid or 150 ml of its concentrate
— Crystallized salt

Mix in a saucepan acetic acid and soda, wait until the mixture stops sizzling. Turn on the stove and evaporate excess moisture until an oily film appears on the surface. Pour the resulting solution into a clean container and cool until room temperature. Then add a crystal of soda and watch how the water “freezes” and the container becomes hot.

Heated and mixed, vinegar and soda form sodium acetate, which when melted becomes an aqueous solution of sodium acetate. When salt is added to it, it begins to crystallize and generate heat.

Rainbow in milk

For the experience you need:
- Milk
- Plate
— Liquid food coloring in several colors
— Cotton swab
— Detergent

Pour milk into a plate, drip dyes in several places. Soak a cotton swab in detergent and place it in a plate with milk. Let's look at the rainbow.

In the liquid part there is a suspension of fat droplets, which, in contact with detergent split and rush from the inserted stick in all directions. A regular circle is formed due to surface tension.

Smoke without fire

For the experience you need:
— Hydroperite
— Analgin
— Mortar and pestle (can be replaced with a ceramic cup and spoon)

It is better to do the experiment in a well-ventilated area.
Grind the hydroperite tablets to powder, do the same with analgin. Mix the resulting powders, wait a little, see what happens.

During the reaction, hydrogen sulfide, water and oxygen are formed. This leads to partial hydrolysis with the elimination of methylamine, which interacts with hydrogen sulfide, the suspension of its small crystals resembling smoke.

Pharaoh snake

For the experience you need:
- Calcium gluconate
- Dry fuel
— Matches or lighter

Place several tablets of calcium gluconate on dry fuel and set it on fire. We look at the snakes.

Calcium gluconate decomposes when heated, which leads to an increase in the volume of the mixture.

Non-Newtonian fluid

For the experience you need:

— Mixing bowl
— 200 g corn starch
- 400 ml water

Gradually add water to the starch and stir. Try to make the mixture homogeneous. Now try to roll a ball from the resulting mass and hold it.

The so-called non-Newtonian fluid behaves like a solid when interacting quickly, and like a liquid when interacting slowly.