Experiments for two people at home. Experiments at home in chemistry and physics. Experiences for children. Performing the experience step by step

My personal experience of teaching chemistry has shown that it is very difficult to study such a science as chemistry without any initial knowledge and practice. Schoolchildren very often run this subject. I personally observed how a student of the 8th grade at the word "chemistry" began to frown, as if he had eaten a lemon.

Later it turned out that because of dislike and misunderstanding of the subject, he skipped school in secret from his parents. Of course, the school curriculum is designed in such a way that the teacher must give a lot of theory at the first chemistry lessons. Practice, as it were, fades into the background precisely at the moment when the student cannot yet independently realize whether he needs this subject in the future. This is primarily due to the laboratory equipment of schools. In big cities, things are better now with reagents and instruments. As for the province, as well as 10 years ago, and at present, many schools do not have the opportunity to conduct laboratory classes. But the process of studying and fascination with chemistry, as well as with other natural sciences, usually begins with experiments. And it is no coincidence. Many famous chemists, such as Lomonosov, Mendeleev, Paracelsus, Robert Boyle, Pierre Curie and Maria Sklodowska-Curie (schoolchildren also study all these researchers in physics classes) have already started experimenting since childhood. The great discoveries of these great people were made in home chemical laboratories, since chemistry classes at institutes were available only to wealthy people.

And, of course, the most important thing is to interest the child and convey to him that chemistry surrounds us everywhere, so the process of studying it can be very exciting. This is where home chemistry experiments come in handy. Observing such experiments, one can further look for an explanation of why things happen this way and not otherwise. And when a young researcher comes across such concepts at school lessons, the teacher’s explanations will be more understandable to him, since he will already have his own experience in conducting home chemical experiments and the knowledge gained.

It is very important to start science studies with the usual observations and real life examples that you think will be the best for your child. Here are some of them. Water is a chemical substance consisting of two elements, as well as gases dissolved in it. Man also contains water. We know that where there is no water, there is no life. A person can live without food for about a month, and without water - only a few days.

River sand is nothing but silicon oxide and also the main raw material for glass production.

A person himself does not suspect it and carries out chemical reactions every second. The air we breathe is a mixture of gases - chemicals. In the process of exhalation, another complex substance is released - carbon dioxide. We can say that we ourselves are a chemical laboratory. You can explain to the child that washing hands with soap is also a chemical process of water and soap.

An older child who, for example, has already begun to study chemistry at school, can be explained that almost all elements of the periodic system of D. I. Mendeleev can be found in the human body. In a living organism, not only all chemical elements are present, but each of them performs some biological function.

Chemistry is also medicines, without which at present many people cannot live even a day.

Plants also contain the chemical chlorophyll, which gives the leaf its green color.

Cooking is a complex chemical process. Here you can give an example of how the dough rises when yeast is added.

One of the options for getting a child interested in chemistry is to take an individual outstanding researcher and read the story of his life or watch an educational film about him (films about D.I. Mendeleev, Paracelsus, M.V. Lomonosov, Butlerov are now available).

Many believe that real chemistry is harmful substances, it is dangerous to experiment with them, especially at home. There are many very exciting experiences that you can do with your child without harming your health. And these home chemical experiments will be no less exciting and instructive than those that come with explosions, pungent odors and puffs of smoke.

Some parents are also afraid to conduct chemical experiments at home because of their complexity or the lack of the necessary equipment and reagents. It turns out that you can get by with improvised means and those substances that every housewife has in the kitchen. You can buy them at your nearest household store or pharmacy. Test tubes for home chemical experiments can be replaced with pill bottles. Reagents can be stored glass jars, for example, from baby food or mayonnaise.

It is worth remembering that the dishes with reagents must have a label with the inscription and be tightly closed. Sometimes the tubes need to be heated. In order not to hold it in your hands when heated and not get burned, you can build such a device using a clothespin or a piece of wire.

It is also necessary to allocate several steel and wooden spoons for mixing.

You can make a stand for holding test tubes yourself by drilling through holes in the bar.

To filter the resulting substances, you will need a paper filter. It is very easy to make it according to the diagram given here.

For children who do not yet go to school or are studying in elementary grades, setting up home chemical experiments with their parents will be a kind of game. Most likely, such a young researcher will not yet be able to explain some individual laws and reactions. However, it is possible that just such an empirical way of discovering the surrounding world, nature, man, plants through experiments will lay the foundation for the study of natural sciences in the future. You can even arrange original competitions in the family - who will have the most successful experience and then demonstrate them at family holidays.

Regardless of the age of the child and his ability to read and write, I advise you to have a laboratory journal in which you can record experiments or sketch. A real chemist must write down a work plan, a list of reagents, sketches of instruments and describes the progress of work.

When you and your child just begin to study this science of substances and conduct home chemical experiments, the first thing to remember is safety.

To do this, follow the following safety rules:

2. It is better to allocate a separate table for conducting chemical experiments at home. If you do not have a separate table at home, then it is better to conduct experiments on a steel or iron tray or pallet.

3. It is necessary to get thin and thick gloves (they are sold in a pharmacy or hardware store).

4. For chemical experiments, it is best to buy a lab coat, but you can also use a thick apron instead of a dressing gown.

5. Laboratory glassware should not be used for food.

6. In home chemical experiments, there should be no cruelty to animals and violation of the ecological system. Acidic chemical waste should be neutralized with soda, and alkaline with acetic acid.

7. If you want to check the smell of a gas, liquid or reagent, never bring the vessel directly to your face, but, holding it at a certain distance, direct, waving your hand, the air above the vessel towards you and at the same time smell the air.

8. Always use small amounts of reagents in home experiments. Avoid leaving reagents in a container without an appropriate inscription (label) on the bottle, from which it should be clear what is in the bottle.

The study of chemistry should begin with simple chemical experiments at home, allowing the child to master the basic concepts. A series of experiments 1-3 allow you to get acquainted with the basic aggregate states of substances and the properties of water. To begin with, you can show a preschooler how sugar and salt dissolve in water, accompanying this with an explanation that water is a universal solvent and is a liquid. Sugar or salt are solids that dissolve in liquids.

Experience number 1 "Because - without water and neither here nor there"

Water is a liquid chemical substance composed of two elements as well as gases dissolved in it. Man also contains water. We know that where there is no water, there is no life. A person can live without food for about a month, and without water - only a few days.

Reagents and equipment: 2 test tubes, soda, citric acid, water

Experiment: Take two test tubes. Pour in equal amounts of soda and citric acid. Then pour water into one of the test tubes, and not into the other. In a test tube in which water was poured, carbon dioxide began to be released. In a test tube without water - nothing has changed

Discussion: This experiment explains the fact that many reactions and processes in living organisms are impossible without water, and water also accelerates many chemical reactions. Schoolchildren can be explained that an exchange reaction has taken place, as a result of which carbon dioxide has been released.

Experience number 2 "What is dissolved in tap water"

Reagents and equipment: clear glass, tap water

Experiment: Pour tap water into a transparent glass and put it in a warm place for an hour. After an hour, you will see settled bubbles on the walls of the glass.

Discussion: Bubbles are nothing but gases dissolved in water. Gases dissolve better in cold water. As soon as the water becomes warm, the gases cease to dissolve and settle on the walls. A similar home chemical experiment also makes it possible to acquaint the child with the gaseous state of matter.

Experience No. 3 “What is dissolved in mineral water or water is a universal solvent”

Reagents and equipment: test tube, mineral water, candle, magnifying glass

Experiment: Pour mineral water into a test tube and slowly evaporate it over a candle flame (the experiment can be done on the stove in a saucepan, but the crystals will be less visible). As the water evaporates, small crystals will remain on the walls of the test tube, all of them of different shapes.

Discussion: Crystals are salts dissolved in mineral water. They have a different shape and size, since each crystal has its own chemical formula. With a child who has already begun to study chemistry at school, you can read the label on mineral water, which indicates its composition and write the formulas of the compounds contained in mineral water.

Experiment No. 4 "Filtration of water mixed with sand"

Reagents and equipment: 2 test tubes, funnel, paper filter, water, river sand

Experiment: Pour water into a test tube and dip a little river sand into it, mix. Then, according to the scheme described above, make a filter out of paper. Insert a dry, clean test tube into a rack. Slowly pour the sand/water mixture through a filter paper funnel. River sand will remain on the filter, and you will get clean water in a tripod tube.

Discussion: Chemical experience allows us to show that there are substances that do not dissolve in water, for example, river sand. The experience also introduces one of the methods of cleaning mixtures of substances from impurities. Here you can introduce the concepts of pure substances and mixtures, which are given in the 8th grade chemistry textbook. In this case, the mixture is sand with water, the pure substance is the filtrate, and river sand is the sediment.

The filtration process (described in Grade 8) is used here to separate a mixture of water and sand. To diversify the study of this process, you can delve a little into the history of drinking water purification.

Filtration processes were used as early as the 8th and 7th centuries BC. in the state of Urartu (now it is the territory of Armenia) for the purification of drinking water. Its inhabitants carried out the construction of a water supply system with the use of filters. Thick cloth and charcoal were used as filters. Similar systems of intertwined drainpipes, clay canals, equipped with filters were also on the territory of the ancient Nile among the ancient Egyptians, Greeks and Romans. Water was passed through such a filter repeatedly through such a filter several times, eventually many times, ultimately achieving the best water quality.

One of the most interesting experiments is growing crystals. The experience is very clear and gives an idea of ​​many chemical and physical concepts.

Experience number 5 "Grow sugar crystals"

Reagents and equipment: two glasses of water; sugar - five glasses; wooden skewers; thin paper; pan; transparent cups; food coloring (the proportions of sugar and water can be reduced).

Experiment: The experiment should begin with the preparation of sugar syrup. We take a pan, pour 2 cups of water and 2.5 cups of sugar into it. We put on medium heat and, stirring, dissolve all the sugar. Pour the remaining 2.5 cups of sugar into the resulting syrup and cook until completely dissolved.

Now let's prepare the germs of crystals - sticks. Scatter a small amount of sugar on a piece of paper, then dip the stick in the resulting syrup, and roll it in sugar.

We take the pieces of paper and pierce a hole in the middle with a skewer so that the piece of paper fits snugly against the skewer.

Then we pour the hot syrup into transparent glasses (it is important that the glasses are transparent - this way the process of crystal ripening will be more exciting and visual). The syrup must be hot or the crystals will not grow.

You can make colored sugar crystals. To do this, add a little to the resulting hot syrup. food coloring and stir it up.

The crystals will grow in different ways, some quickly and some may take longer. At the end of the experiment, the child can eat the resulting lollipops if he is not allergic to sweets.

If you do not have wooden skewers, then you can experiment with ordinary threads.

Discussion: A crystal is a solid state of matter. It has a certain shape and a certain number of faces due to the arrangement of its atoms. Crystalline substances are substances whose atoms are arranged regularly, so that they form a regular three-dimensional lattice, called a crystal. Crystals of a number of chemical elements and their compounds have remarkable mechanical, electrical, magnetic and optical properties. For example, diamond is a natural crystal and the hardest and rarest mineral. Due to its exceptional hardness, diamond plays a huge role in technology. Diamond saws cut stones. There are three ways to form crystals: crystallization from a melt, from a solution, and from a gas phase. An example of crystallization from a melt is the formation of ice from water (after all, water is molten ice). An example of crystallization from solution in nature is the precipitation of hundreds of millions of tons of salt from sea water. In this case, when growing crystals at home, we are dealing with the most common methods of artificial growing - crystallization from a solution. Sugar crystals grow from a saturated solution by slowly evaporating the solvent - water, or by slowly lowering the temperature.

The following experience allows you to get at home one of the most useful crystalline products for humans - crystalline iodine. Before conducting the experiment, I advise you to watch with your child a short film “The life of wonderful ideas. Smart iodine. The film gives an insight into the benefits of iodine and unusual story his discovery, which will be remembered for a long time by the young researcher. And it is interesting because the discoverer of iodine was an ordinary cat.

The French scientist Bernard Courtois during the years of the Napoleonic wars noticed that in the products obtained from the ashes of seaweed, which were thrown onto the coast of France, there is some substance that corrodes iron and copper vessels. But neither Courtois himself nor his assistants knew how to isolate this substance from the ashes of algae. Chance helped speed up the discovery.

At his small saltpeter plant in Dijon, Courtois was going to conduct several experiments. There were vessels on the table, one of which contained an alcoholic tincture of seaweed, and the other a mixture of sulfuric acid and iron. On the shoulders of the scientist sat his beloved cat.

There was a knock on the door, and the frightened cat jumped down and ran away, brushing the flasks on the table with its tail. The vessels broke, the contents mixed, and suddenly a violent chemical reaction began. When a small cloud of vapors and gases settled, the surprised scientist saw some kind of crystalline coating on the objects and debris. Courtois began to explore it. Crystals to anyone before this unknown substance were called "iodine".

So a new element was discovered, and Bernard Courtois's domestic cat went down in history.

Experience No. 6 "Obtaining iodine crystals"

Reagents and equipment: tincture of pharmaceutical iodine, water, a glass or a cylinder, a napkin.

Experiment: We mix water with tincture of iodine in the proportion: 10 ml of iodine and 10 ml of water. And put everything in the refrigerator for 3 hours. During cooling, the iodine will precipitate at the bottom of the glass. We drain the liquid, take out the iodine precipitate and put it on a napkin. Squeeze with napkins until the iodine begins to crumble.

Discussion: This chemical experiment is called extraction or extraction of one component from another. In this case, the water extracts the iodine from the spirit lamp solution. Thus, the young researcher will repeat the experience of the cat Courtois without smoke and beating dishes.

Your child will already learn about the benefits of iodine for disinfecting wounds from the movie. Thus, you show that there is an inextricable link between chemistry and medicine. However, it turns out that iodine can be used as an indicator or analyzer of the content of another useful substance - starch. The following experience will introduce the young experimenter to a separate very useful chemistry - analytical.

Experience No. 7 "Iodine-indicator of starch content"

Reagents and equipment: fresh potatoes, pieces of banana, apple, bread, a glass of diluted starch, a glass of diluted iodine, a pipette.

Experiment: We cut the potatoes into two parts and drip diluted iodine on it - the potatoes turn blue. Then we drip a few drops of iodine into a glass of diluted starch. The liquid also turns blue.

We drip with a pipette iodine dissolved in water on an apple, banana, bread, in turn.

Watching:

The apple didn't turn blue at all. Banana - slightly blue. Bread - turned blue very much. This part of the experience shows the presence of starch in various foods.

Discussion: Starch, reacting with iodine, gives a blue color. This property gives us the ability to detect the presence of starch in various foods. Thus, iodine is, as it were, an indicator or analyzer of starch content.

As you know, starch can be converted into sugar, if you take an unripe apple and drop iodine, it will turn blue, since the apple is not yet ripe. As soon as the apple ripens, all the starch contained will turn into sugar and the apple does not turn blue at all when treated with iodine.

The following experience will be useful for children who have already started studying chemistry at school. It introduces concepts such as chemical reaction, compound reaction, and qualitative reaction.

Experiment No. 8 "Flame coloring or compound reaction"

Reagents and equipment: tweezers, table salt, spirit lamp

Experiment: Take with tweezers a few crystals of coarse salt table salt. Let's hold them over the flame of the burner. The flame will turn yellow.

Discussion: This experiment makes it possible to carry out a chemical combustion reaction, which is an example of a compound reaction. Due to the presence of sodium in the composition of table salt, during combustion, it reacts with oxygen. As a result, a new substance is formed - sodium oxide. The appearance of a yellow flame indicates that the reaction has passed. Such reactions are qualitative reactions to compounds containing sodium, that is, it can be used to determine whether sodium is present in a substance or not.

All children, without exception, love mysterious, mysterious and unusual phenomena. Most children really like to conduct interesting experiments, some of which do not seek help from parents or other adults.

Experiments that can be done with children

Not all experiences are suitable for children. Some of them can pose a danger to the life and health of babies, especially preschool children. Nevertheless, under the control and supervision of parents or other adults, a child can conduct any entertaining experiment - the main thing is to carefully monitor compliance with the necessary safety requirements.

All scientific experiments are extremely useful for children. They allow young inventors to visually get acquainted with the properties of various substances and objects, chemical compounds and much more, understand the causes of certain phenomena and gain valuable practical experience that can be applied in later life. In addition, some of these experiments can be shown as tricks, thanks to which the child will be able to gain authority among his friends and buddies.

Water experiments for children

All people in everyday life very often use water and do not think at all that it has truly magical and amazing properties. Meanwhile, with this liquid you can spend incredibly with children. For example, boys and girls at home can do the following experiments:

Experiments with fire for children

You should be especially careful with fire, but it is with it that you can put incredibly interesting experiments for children. Try one of the following experiments with your offspring:

Salt experiments for children

Entertaining experiments for children can also be carried out with bulk substances, for example, with salt. Children will definitely enjoy such experiments as:

Experiments with soda for children

No less spectacular experiments for children can be carried out with baking soda, for example, "Volcano". Place a small plastic bottle on the table and mold a clay or sand volcano around it. Pour 2 tablespoons of soda into the container, add approximately 50-70 ml warm water, a few drops of red food coloring, and at the very end - a quarter cup of vinegar. A real volcanic eruption will happen before your eyes, and the child will be delighted.

Other experiments for children with baking soda can be built on the property of this substance to crystallize. To obtain crystals, You can use the same method as in the case of salt. To do this, it is necessary to prepare a dense soda solution in which the bulk substance no longer dissolves, and then place a metal wire or other object there and leave it for several days in a warm place. The result will not be long in coming.

Balloon experiments for kids

Often experiments and experiments for children are associated with various properties of balloons, such as:

Experiments with eggs for children

Some interesting experiments with children can be done using chicken eggs, For example:

Experiments with lemon for children

Anything can be used to conduct experiments. Interesting experiments with lemon deserve special attention, for example:

Experiments with paints for children

All kids love to draw, but it will be even more interesting for them to conduct entertaining experiments with paints. Try one of the following experiments:

Such a complex but interesting science as chemistry always causes an ambiguous reaction among schoolchildren. The children are interested in experiments, as a result of which substances of bright colors are obtained, gases are released or precipitation occurs. But only a few of them like to write complex equations of chemical processes.

The Importance of Entertaining Experiences

According to modern federal standards in general education schools, such a subject of the program as chemistry was also not left without attention.

As part of the study of complex transformations of substances and solving practical problems, the young chemist hones his skills in practice. It is in the course of unusual experiments that the teacher forms an interest in the subject in his pupils. But in ordinary lessons, it is difficult for a teacher to find enough free time for non-standard experiments, and there is simply no time to conduct them for children.

To remedy this, additional elective and elective courses were invented. By the way, many children who are fond of chemistry in grades 8-9 become doctors, pharmacists, scientists in the future, because in such classes a young chemist gets the opportunity to independently conduct experiments and draw conclusions from them.

What courses are associated with entertaining chemistry experiments?

In the old days, chemistry for children was available only from the 8th grade. No special courses or extracurricular activities in the field of chemistry were offered to children. In fact, there was simply no work with gifted children in chemistry, which had a negative impact on the attitude of schoolchildren to this discipline. The guys were afraid and did not understand complex chemical reactions, they made mistakes in writing ionic equations.

In connection with the reform of the modern education system, the situation has changed. Now in educational institutions are offered in the lower grades. The children are happy to do the tasks that the teacher offers them, learn to draw conclusions.

Optional courses related to chemistry help high school students gain skills in working with laboratory equipment, and those designed for younger students contain vivid, demonstrative chemical experiments. For example, children study the properties of milk, get acquainted with those substances that are obtained when it is sour.

Experiments with water

Entertaining chemistry for children is interesting when, during the experiment, they see an unusual result: gas evolution, bright color, unusual sediment. A substance such as water is considered ideal for conducting a variety of entertaining chemical experiments for schoolchildren.

For example, chemistry for children of 7 years old may begin with an acquaintance with its properties. The teacher tells the children that most of our planet is covered with water. The teacher also informs the pupils that in a watermelon it is more than 90 percent, and in a person - about 65-70%. Having told schoolchildren about how important water is for humans, we can offer them some interesting experiments. At the same time, it is worth emphasizing the “magic” of water in order to intrigue schoolchildren.

By the way, in this case, the standard set of chemistry for children does not involve any expensive equipment - it is quite possible to limit yourself to available devices and materials.

Experience "Ice Needle"

Let's give an example of such a simple and also interesting experiment with water. This is a building of ice sculpture - "needles". For the experiment you will need:

• water;
• salt;
• ice cubes.

The duration of the experiment is 2 hours, so such an experiment cannot be carried out in a regular lesson. First you need to pour water into the ice mold, put in the freezer. After 1-2 hours, after the water turns into ice, entertaining chemistry can continue. For the experience, you will need 40-50 ready-made ice cubes.

First, the children must arrange 18 cubes on the table in the form of a square, leaving an empty space in the center. Then, after sprinkling them with table salt, they are carefully applied to each other, thus gluing together.

Gradually, all the cubes are connected, and as a result, a thick and long “needle” of ice is obtained. To make it, 2 teaspoons of table salt and 50 small pieces of ice are enough.

It is possible, by tinting the water, to make the ice sculptures multi-colored. And as a result of such a simple experience, chemistry for children of 9 years old becomes an understandable and exciting science. You can experiment by gluing ice cubes in the form of a pyramid or rhombus.

Experiment "Tornado"

This experiment will not require special materials, reagents and tools. The guys will be able to make it in 10-15 minutes. For the experiment, stock up:

• a plastic transparent bottle with a cap;
• water;
• dishwashing detergent;
• sequins.

The bottle must be filled 2/3 with plain water. Then add 1-2 drops of dishwashing detergent to it. After 5-10 seconds, pour a couple of pinches of sparkles into the bottle. Tighten the cap tightly, turn the bottle upside down, holding the neck, and twist clockwise. Then we stop and look at the resulting vortex. Until the moment the "tornado" works, you will have to scroll the bottle 3-4 times.

Why does a "tornado" appear in an ordinary bottle?

When a child makes circular movements, a whirlwind similar to a tornado appears. The rotation of water around the center occurs due to the action of centrifugal force. The teacher tells the children about how terrible tornadoes are in nature.

Such an experience is absolutely safe, but after it, chemistry for children becomes a truly fabulous science. To make the experiment more vivid, you can use a coloring agent, for example, potassium permanganate (potassium permanganate).

Experiment "Soap Bubbles"

Want to teach kids what fun chemistry is? Programs for children do not allow the teacher to pay due attention to experiments in the lessons, there is simply no time for this. So, let's do this optionally.

For elementary school students, this experiment will bring a lot of positive emotions, and you can do it in a few minutes. We will need:

• liquid soap;
• jar;
• water;
• thin wire.

In a jar, mix one part liquid soap with six parts water. We bend the end of a small piece of wire in the form of a ring, lower it into the soap mixture, carefully pull it out and blow out a beautiful soap bubble of our own making from the mold.

Only wire that does not have a nylon layer is suitable for this experiment. Else blow out bubble kids can't.

In order to make it more interesting for the guys, you can add food coloring to the soap solution. You can arrange soap competitions between schoolchildren, then chemistry for children will become a real holiday. The teacher thus introduces the children to the concept of solutions, solubility and explains the reasons for the appearance of bubbles.

Entertaining experience "Water from plants"

To begin with, the teacher explains how important water is for cells in living organisms. It is with the help of it that the transport of nutrients occurs. The teacher notes that in case of insufficient amount of water in the body, all living things die.

For the experiment you will need:

• spirit lamp;
• test tubes;
• green leaves;
• test tube holder;
• copper sulfate (2);
• beaker.

This experiment will take 1.5-2 hours, but as a result, chemistry for children will be a manifestation of a miracle, a symbol of magic.

Green leaves are placed in a test tube, fixed in the holder. In the flame of an alcohol lamp, you need to heat the entire test tube 2-3 times, and then this is done only with the part where the green leaves are.

The glass should be placed so that the gaseous substances released in the test tube fall into it. As soon as the heating is completed, to a drop of the liquid obtained inside the glass, add grains of white anhydrous copper sulfate. Gradually, the white color disappears, and copper sulfate becomes blue or blue.

This experience leads children to complete delight, because the color of substances changes before their eyes. At the end of the experiment, the teacher tells the children about such a property as hygroscopicity. It is due to its ability to absorb water vapor (moisture) that white copper sulfate changes its color to blue.

Experiment "Magic Wand"

This experiment is suitable for an introductory lesson in an elective course in chemistry. First, you need to make a star-shaped blank from it and soak it in a solution of phenolphthalein (indicator).

During the experiment itself, the star attached to the "magic wand" is first immersed in an alkali solution (for example, in a solution of sodium hydroxide). Children see how in a matter of seconds her color changes and a bright crimson color appears. Next, the colored form is placed in an acid solution (for the experiment, the use of a hydrochloric acid solution would be optimal), and the crimson color disappears - the asterisk becomes colorless again.

If the experiment is carried out for kids, during the experiment the teacher tells a "chemical fairy tale". For example, the hero of a fairy tale can be an inquisitive mouse who wanted to know why there are so many bright colors in a magical land. For students in grades 8-9, the teacher introduces the concept of "indicator" and notes which indicators can determine the acidic environment, and which substances are needed to determine the alkaline environment of solutions.

The Genie in the Bottle Experience

This experiment is demonstrated by the teacher himself, using a special fume hood. The experience is based on the specific properties of concentrated nitric acid. Unlike many acids, concentrated nitric acid is able to enter into chemical interaction with metals located after hydrogen (with the exception of platinum, gold).

Pour it into a test tube and add a piece of copper wire there. Under the hood, the test tube is heated, and the children observe the appearance of “red gin” vapors.

For students in grades 8-9, the teacher writes the equation of a chemical reaction, highlights the signs of its course (color change, the appearance of gas). This experience is not suitable for demonstration outside the walls of the school chemistry room. According to safety regulations, it involves the use of nitric oxide vapors (“brown gas”) are dangerous for children.

Home experiments

In order to warm up the interest of schoolchildren in chemistry, you can offer a home experiment. For example, to conduct an experiment on growing salt crystals.

The child should prepare a saturated solution of table salt. Then place a thin branch in it, and, as the water evaporates from the solution, salt crystals will “grow” on the branch.

The jar of solution must not be shaken or rotated. And when after 2 weeks the crystals grow, the stick must be very carefully removed from the solution and dried. And then, if desired, you can cover the product with a colorless varnish.

Conclusion

There is no more interesting subject in the school curriculum than chemistry. But in order for children not to be afraid of this complex science, the teacher must devote sufficient time in his work to entertaining experiments and unusual experiments.

It is the practical skills that are formed in the course of such work that will help stimulate interest in the subject. And in the lower grades, entertaining experiments are considered by the Federal State Educational Standards as an independent project and research activity.

Entertaining experiments for preschoolers, experiments for children at home, tricks for children, entertaining science ... How to curb the seething energy and indefatigable curiosity of the baby? How to make the most of the inquisitiveness of the child's mind and push the child to explore the world? How to promote the development of a child's creativity? These and other questions certainly arise before parents and educators. This paper contains a large number of various experiences and experiments that can be carried out with children to expand their understanding of the world, for the intellectual and creative development of the child. The described experiments do not require any special preparation and almost no material costs.

How to pierce a balloon without harm to it?

The child knows that if the balloon is pierced, it will burst. Stick on the ball on both sides of a piece of adhesive tape. And now you can safely pierce the ball through the tape without any harm to it.

"Submarine" No. 1. Submarine from grapes

Grab a glass of fresh sparkling water or lemonade and toss a grape into it. It is slightly heavier than water and will sink to the bottom. But gas bubbles, similar to small balloons, will immediately begin to sit on it. Soon there will be so many of them that the grape will pop up.

But on the surface, the bubbles will burst and the gas will escape. The heavy grape will again sink to the bottom. Here it will again be covered with gas bubbles and rise again. This will continue several times until the water "exhales". According to this principle, a real boat floats up and rises. And the fish have a swim bladder. When she needs to dive, the muscles contract, squeezing the bubble. Its volume decreases, the fish goes down. And you have to get up - the muscles relax, dissolve the bubble. It increases and the fish floats up.

"Submarine" No. 2. Egg submarine

Take 3 jars: two half-liter and one liter. Fill one jar with clean water and dip into it a raw egg. It will drown.

Pour a strong solution of table salt into the second jar (2 tablespoons per 0.5 l of water). Dip the second egg there - it will float. This is because salt water is heavier, so it is easier to swim in the sea than in a river.

Now put it on the bottom liter jar egg. Gradually adding water from both small jars in turn, you can get a solution in which the egg will neither float nor sink. It will be held, as if suspended, in the middle of the solution.

When the experiment is done, you can show the focus. By adding salt water, you will ensure that the egg will float. Adding fresh water - that the egg will sink. Outwardly, salt and fresh water do not differ from each other, and it will look amazing.

How to get a coin out of the water without getting your hands wet? How to get out of the water dry?

Put the coin on the bottom of the plate and fill it with water. How to take it out without getting your hands wet? The plate must not be tilted. Fold a small piece of newspaper into a ball, set fire to it, throw it into a half-liter jar and immediately put it down with the hole in the water next to the coin. The fire will go out. The heated air will come out of the can, and due to the atmospheric pressure difference inside the can, the water will be drawn into the can. Now you can take the coin without getting your hands wet.

lotus flowers

Cut flowers with long petals from colored paper. Using a pencil, twist the petals towards the center. And now lower the multi-colored lotuses into the water poured into the basin. Literally before your eyes, the flower petals will begin to bloom. This is because the paper gets wet, becomes gradually heavier and the petals open.

natural magnifier

If you need to make out any small creature, such as a spider, a mosquito or a fly, it is very easy to do this.

Plant the insect in a three-liter jar. From above, tighten the neck with cling film, but do not pull it, but, on the contrary, push it so that a small container forms. Now tie the film with a rope or elastic band, and pour water into the recess. You will get a wonderful magnifying glass through which you can perfectly see the smallest details.

The same effect will be obtained if you look at an object through a jar of water, fixing it on the back of the jar with transparent tape.

water candlestick

Take a short stearin candle and a glass of water. Weight the lower end of the candle with a heated nail (if the nail is cold, the candle will crumble) so that only the wick and the very edge of the candle remain above the surface.

The glass of water in which this candle floats will be the candlestick. Light the wick and the candle will burn for quite some time. It seems that it is about to burn down to water and go out. But that won't happen. The candle will burn out almost to the very end. And besides, a candle in such a candlestick will never cause a fire. The wick will be extinguished with water.

How to get drinking water?

Dig a hole in the ground about 25 cm deep and 50 cm in diameter. Place an empty plastic container or wide bowl in the center of the hole, put fresh green grass and leaves around it. Cover the hole with clean plastic wrap and cover the edges with earth to prevent air from escaping from the hole. Place a stone in the center of the film and lightly press the film over the empty container. The device for collecting water is ready.

Leave your design until the evening. And now carefully shake the earth off the film so that it does not fall into the container (bowl), and look: there is clean water in the bowl.

Where did she come from? Explain to the child that under the influence of the sun's heat, the grass and leaves began to decompose, releasing heat. Warm air always rises. It settles in the form of evaporation on a cold film and condenses on it in the form of water droplets. This water flowed into your container; remember, you pushed the film a little and put a stone there.

Now you just have to come up with an interesting story about travelers who went to distant lands and forgot to take water with them, and start an exciting journey.

Miraculous matches

You will need 5 matches.

Break them in the middle, bend them at a right angle and put them on a saucer.

Put a few drops of water on the folds of the matches. Watch. Gradually, the matches will begin to straighten out and form a star.

The reason for this phenomenon, which is called capillarity, is that wood fibers absorb moisture. She crawls further and further along the capillaries. The tree swells, and its surviving fibers "get fat", and they can no longer bend much and begin to straighten out.

Washbasin chief. Making a washbasin is easy

Toddlers have one feature: they always get dirty when there is even the slightest opportunity for that. And the whole day to take a child home to wash is quite troublesome, besides, children do not always want to leave the street. Solving this issue is very simple. Make a simple washbasin with your child.

For this you need to take plastic bottle, on its side surface about 5 cm from the bottom, make a hole with an awl or nail. The work is finished, the washbasin is ready. Plug the hole made with your finger, pour water to the top and close the lid. Slightly unscrewing it, you get a trickle of water by screwing it - you will "close the tap" of your washbasin.

Where did the ink go? transformations

Drop ink or ink into a bottle of water to make the solution a pale blue. Put a tablet of crushed activated charcoal there. Close the mouth with your finger and shake the mixture.

She brightens up before her eyes. The fact is that coal absorbs dye molecules with its surface and it is no longer visible.

Making a cloud

Pour hot water into a three-liter jar (about 2.5 cm). Place a few ice cubes on a baking sheet and place it on top of the jar. The air inside the jar, rising up, will cool. The water vapor it contains will condense to form a cloud.

This experiment simulates the formation of clouds when warm air cools. And where does the rain come from? It turns out that the drops, heated up on the ground, rise up. It gets cold there, and they huddle together, forming clouds. When they meet together, they increase, become heavy and fall to the ground in the form of rain.

I don't believe my hands

Prepare three bowls of water: one with cold water, another with room water, and a third with hot water. Have the child dip one hand into a bowl of cold water and the other hand into a bowl of hot water. After a few minutes, have him submerge both hands in water at room temperature. Ask if she seems hot or cold to him. Why is there a difference in hand feel? Can you always trust your hands?

water suction

Put the flower in water, tinted with any paint. Watch how the color of the flower changes. Explain that the stem has ducts that carry water up to the flower and color it. This phenomenon of water absorption is called osmosis.

Vaults and tunnels

Glue a thin paper tube slightly larger in diameter than a pencil. Insert a pencil into it. Then carefully fill the tube with the pencil with sand so that the ends of the tube come out. Pull out the pencil and you will see that the tube is not crumpled. Sand grains form protective vaults. Insects caught in the sand come out from under the thick layer unharmed.

All equally

Take an ordinary coat hanger, two identical containers (these can also be large or medium disposable cups and even aluminum cans for drinks, however, you need to cut off the top of the cans). In the upper part of the container on the side, opposite each other, make two holes, insert any rope into them and attach it to a hanger, which you hang, for example, on the back of a chair. Balance containers. And now, pour either berries, or sweets, or cookies into such impromptu scales, and then the children will not argue who got more goodies.

"Good boy and roly-poly". Obedient and naughty egg

First, try placing a whole raw egg on the blunt or pointed end. Then start experimenting.

Poke two holes the size of a match head at the ends of the egg and blow out the contents. Rinse the inside thoroughly. Let the shell dry well from the inside for one to two days. After that, close up the hole with plaster, glue with chalk or whitewash so that it becomes invisible.

Fill the shell with clean and dry sand about one quarter. Seal the second hole in the same way as the first. Obedient egg is ready. Now, in order to put it in any position, just shake the egg slightly, holding it in the position that it should take. The grains of sand will move and the placed egg will keep its balance.

To make a “roly-poly” (roly-poly), you need to throw 30-40 pieces of the smallest pellets and pieces of stearin from a candle into the egg instead of sand. Then put the egg on one end and heat it up. The stearin will melt, and when it hardens, it will stick the pellets together and stick them to the shell. Cover the holes in the shell.

The tumbler will be impossible to put down. An obedient egg will stand on the table, and on the edge of the glass, and on the knife handle.

If your child wants to, have them paint both eggs or make funny faces on them.

Boiled or raw?

If there are two eggs on the table, one of which is raw and the other is boiled, how can you determine this? Of course, every housewife will do this with ease, but show this experience to a child - he will be interested.

Of course, he is unlikely to connect this phenomenon with the center of gravity. Explain to him that in a boiled egg the center of gravity is constant, so it spins. And in a raw egg, the internal liquid mass is like a brake, so a raw egg cannot spin.

"Stop, hands up!"

Take a small plastic jar for medicines, vitamins, etc. Pour some water into it, put any effervescent tablet and close it with a lid (non-screw).

Put it on the table, turning it upside down, and wait. The gas released during the chemical reaction of the tablet and water will push the bottle out, there will be a “roar” and the bottle will be thrown up.

"Magic Mirrors" or 1? 3? 5?

Place two mirrors at an angle greater than 90°. Put one apple in the corner.

This is where it begins, but only begins, a real miracle. There are three apples. And if you gradually reduce the angle between the mirrors, then the number of apples begins to increase.

In other words, the smaller the angle of approach of the mirrors, the more objects will be reflected.

Ask your child if it is possible to make 3, 5, 7 from one apple without using cutting objects. What will he answer you? Now put the above experience.

How to wipe the knee green from the grass?

Take fresh leaves of any green plant, be sure to put them in a thin-walled glass and pour a small amount of vodka. Place the glass in a pot of hot water water bath), but not directly to the bottom, but to some wooden circle. When the water in the saucepan has cooled, remove the leaves from the glass with tweezers. They will discolor, and the vodka will turn emerald green, as chlorophyll, the green dye of plants, has been released from the leaves. It helps plants "eat" solar energy.

This experience will be useful in life. For example, if a child accidentally stains his knees or hands with grass, then you can wipe them off with alcohol or cologne.

Where did the smell go?

Take corn sticks, put them in a jar that has been dripped with cologne, and close it with a tight lid. After 10 minutes, when you open the lid, you will not feel the smell: it was absorbed by the porous substance of the corn sticks. This absorption of color or odor is called adsorption.

What is elasticity?

Take a small rubber ball in one hand, and a plasticine ball of the same size in the other. Drop them to the floor from the same height.

How did the ball and the ball behave, what changes happened to them after the fall? Why does the plasticine not bounce, but the ball bounces, perhaps because it is round, or because it is red, or because it is rubber?

Invite your child to be the ball. Touch the baby's head with your hand, and let him sit down a little, bending his knees, and when you remove your hand, let the child straighten his legs and jump. Let the baby jump like a ball. Then explain to the child that the same thing happens with the ball as with him: he bends his knees, and the ball is pressed a little when it hits the floor, he straightens his knees and bounces, and what is pressed in the ball straightens. The ball is elastic.

A plasticine or wooden ball is not elastic. Tell the child: “I will touch your head with my hand, but don’t bend your knees, don’t be elastic.”

Touch the child's head, and let him not bounce like a wooden ball. If you do not bend your knees, then it is impossible to jump. You can't straighten your knees that haven't been bent. A wooden ball, when it hits the floor, is not pressed in, which means it does not straighten out, so it does not bounce. He's not resilient.

The concept of electric charges

Blow up a small balloon. Rub the ball on wool or fur, and even better on your hair, and you will see how the ball will begin to stick to literally all objects in the room: to the closet, to the wall, and most importantly, to the child.

This is because all objects have a certain electrical charge. As a result of contact between two different materials, electrical discharges are separated.

dancing foil

Cut aluminum foil (shiny chocolate or candy wrappers) into very narrow, long strips. Run the comb through your hair, and then bring it close to the sections.

The stripes will begin to dance. This attracts to each other positive and negative electric charges.

Hanging on the head, or is it possible to hang on the head?

Make a light top out of cardboard by putting it on a thin stick. Sharpen the lower end of the stick, and stick a tailor's pin (with a metal, not a plastic head) deeper into the upper end so that only the head is visible.

Let the top “dance” on the table, and bring a magnet to it from above. The spinning top will jump and the pin head will stick to the magnet, but, interestingly, it will not stop, but will rotate, "hanging on the head."

The secret thief of jam. Or maybe it's Carlson?

Grind the pencil lead with a knife. Let the child rub his finger with the prepared powder. Now you need to press your finger to a piece of adhesive tape, and stick the adhesive tape to a white sheet of paper - it will show the imprint of your baby's finger pattern. Now we will find out whose prints were left on the jar of jam. Or maybe it was Carloson who flew in?

Unusual drawing

Give your child a piece of clean, light-colored cloth (white, blue, pink, light green).

Pick petals from different colors: yellow, orange, red, blue, light blue, and also green leaves of different shades. Just remember that some plants are poisonous, such as aconite.

Spread this mixture onto a cloth placed on a cutting board. You can both involuntarily pour petals and leaves, and build a conceived composition. Cover it with plastic wrap, fasten it on the sides with buttons and roll it all out with a rolling pin or tap on the fabric with a hammer. Shake off the used "paints", stretch the fabric over thin plywood and insert it into the frame. The masterpiece of young talent is ready!

It made a great gift for mom and grandma.

Experiments at home are great way introduce children to the basics of physics and chemistry, and facilitate the understanding of complex abstract laws and terms through visual demonstration. Moreover, for their implementation it is not necessary to acquire expensive reagents or special equipment. After all, without hesitation, we conduct experiments every day at home - from adding slaked soda to the dough to connecting batteries to a flashlight. Read on to find out how easy, simple and safe it is to conduct interesting experiments.

Chemical experiments at home

Does the image of a professor with a glass flask and scorched eyebrows immediately appear in your head? Do not worry, our chemical experiments at home are completely safe, interesting and useful. Thanks to them, the child will easily remember what exo- and endothermic reactions are and what is the difference between them.

So, let's make hatching dinosaur eggs that can be successfully used as bath bombs.

For experience you need:

• small dinosaur figurines;
• baking soda;
• vegetable oil;
• lemon acid;
• food coloring or liquid watercolors.

The order of the experiment

1. Pour ½ cup baking soda into a small bowl and add about ¼ tsp. liquid paints (or dissolve 1-2 drops of food coloring in ¼ tsp of water), mix the baking soda with your fingers to get an even color.
2. Add 1 tbsp. l. citric acid. Mix dry ingredients thoroughly.
3. Add 1 tsp. vegetable oil.
4. You should be able to crumbly dough, which barely sticks together when pressed. If it does not want to stick together at all, then slowly add ¼ tsp. butter until you reach the desired consistency.
5. Now take a dinosaur figurine and cover it with dough in the shape of an egg. It will be very brittle at first, so it should be left overnight (minimum 10 hours) for it to harden.
6. Then you can start a fun experiment: fill the bathroom with water and drop an egg into it. It will hiss furiously as it dissolves into the water. It will be cold when touched, as it is an endothermic reaction between an acid and a base, absorbing heat from the environment.

Please note that the bathroom may become slippery due to the addition of oil.

Elephant Toothpaste

Experiments at home, the result of which can be felt and touched, are very popular with children. One of them is this fun project that ends up with lots of thick, fluffy colored foam.

To carry it out you will need:

• goggles for a child;
• dry active yeast;
• warm water;
• hydrogen peroxide 6%;
• dishwashing detergent or liquid soap (not antibacterial);
• funnel;
• plastic sequins (necessarily non-metallic);
• food colorings;
• bottle 0.5 l (it is best to take a bottle with a wide bottom, for greater stability, but a regular plastic one will do).

The experiment itself is extremely simple:

1. 1 tsp dissolve dry yeast in 2 tbsp. l. warm water.
2. In a bottle placed in a sink or dish with high sides, pour ½ cup of hydrogen peroxide, a drop of dye, glitter and some dishwashing liquid (several pumps on the dispenser).
3. Insert a funnel and pour in the yeast. The reaction will start immediately, so act quickly.

The yeast acts as a catalyst and speeds up the release of hydrogen from the peroxide, and when the gas interacts with the soap, it creates a huge amount of foam. This is an exothermic reaction, with the release of heat, so if you touch the bottle after the "eruption" stops, it will be warm. Since the hydrogen immediately escapes, it's just soap suds to play with.

Physics experiments at home

Did you know that lemon can be used as a battery? True, very weak. Experiments at home with citrus fruits will demonstrate to children the operation of a battery and a closed electrical circuit.

For the experiment you will need:

• lemons - 4 pcs.;
• galvanized nails - 4 pcs.;
• small pieces of copper (you can take coins) - 4 pcs.;
• alligator clips with short wires (about 20 cm) - 5 pcs.;
• small light bulb or flashlight - 1 pc.

Let there be light

Here's how to do the experience:

1. Roll on a hard surface, then lightly squeeze the lemons to release the juice inside the skins.
2. Insert one galvanized nail and one piece of copper into each lemon. Line them up.
3. Connect one end of the wire to a galvanized nail and the other end to a piece of copper in another lemon. Repeat this step until all fruits are connected.
4. When you are done, you should be left with one 1 nail and 1 piece of copper that are not connected to anything. Prepare your light bulb, determine the polarity of the battery.
5. Connect the remaining piece of copper (plus) and nail (minus) to the plus and minus of the flashlight. Thus, a chain of connected lemons is a battery.
6. Turn on a light bulb that will work on the energy of fruits!

To repeat such experiments at home, potatoes, especially green ones, are also suitable.

How it works? The citric acid in the lemon reacts with two different metals, causing the ions to move in the same direction, creating an electrical current. All chemical sources of electricity work on this principle.

Summer fun

You don't have to stay indoors to do some experiments. Some experiments will work better outdoors, and you won't have to clean anything up after they're done. These include interesting experiments at home with air bubbles, and not simple ones, but huge ones.

To make them you will need:

• 2 wooden sticks 50-100 cm long (depending on the age and height of the child);
• 2 metal screw-in ears;
• 1 metal washer;
• 3 m cotton cord;
• bucket with water;
• any detergent - for dishes, shampoo, liquid soap.

Here's how to conduct spectacular experiments for children at home:

1. Screw metal ears into the ends of the sticks.
2. Cut the cotton cord into two parts, 1 and 2 m long. You can not exactly adhere to these measurements, but it is important that the proportion between them is 1 to 2.
3. Put a washer on a long piece of rope so that it sags evenly in the center, and tie both ropes to the ears on the sticks, forming a loop.
4. Mix a small amount of detergent in a bucket of water.
5. Gently dipping the loop on the sticks into the liquid, start blowing giant bubbles. To separate them from each other, carefully bring the ends of the two sticks together.

What is the scientific component of this experience? Explain to the children that bubbles are held together by surface tension, the attractive force that holds the molecules of any liquid together. Its action is manifested in the fact that spilled water collects in drops that tend to acquire a spherical shape, as the most compact of all that exists in nature, or that water, when poured, collects in cylindrical streams. At the bubble, a layer of liquid molecules is clamped on both sides by soap molecules, which increase its surface tension when distributed over the surface of the bubble, and prevent it from quickly evaporating. As long as the sticks are kept open, the water is held in the form of a cylinder; as soon as they are closed, it tends to a spherical shape.

Here are some experiments at home you can do with children.