All Science Fair Projects for School Students

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Bending a stream of water with a comb

Aim: To understand how static electricity works with a simple experiment. Materials required A water faucet. A plastic comb. Procedure: Run the comb through your hair thoroughly Open the tap and let the water flow with minimal force. Do not open the tap too much as the water stream needs to be thin. Bring the comb close to the water and hold it around 1-2 inches away from the water and 3-4 inches below the tap. Observe the stream of water bending towards the comb Scientific explanation: When two objects are rubbed against each other, electrical charge is accumulated. Before rubbing, the objects would have been electrically neutral, that is, they would have had equal number of positive and negative charges. However when they are rubbed together, depending on the nature of the objects, charges of one kind will get transferred to one of the objects so that one object will have a net positive charge and the other will have a negative charge. When you ru

Lighting a bulb without electricity

Aim: To charge up a light bulb using static electricity alone. Materials required: A light bulb. A plastic comb. Procedure: Go to a dark room. Take the comb and run it through your hair thoroughly several times. Hold the comb to the metal contacts at the base of the light bulb. Observe the filament of the bulb. You will see small pulses of light. Scientific Explanation: As you rub the comb through your hair, the friction between your hair and the comb cause electrons to jump from your hair to the comb, giving it a negative charge. When you touch the comb to the bulb, the electrons from the comb flow through the filament of the bulb and light it up briefly.

Simple Motor

Aim: To make a simple home-made motor. Materials required: A thick walled paper or plastic cup. Two large metal paper clips. Five small circular or bar magnets. 60 cm of insulated 20 gauge copper wire. Insulation tape. Two code wires- insulated wires with alligator clips on the ends. A 1.5 volt battery or two for better results. Battery holder. Wire stripper. Black waterproof marking pen. Two thick straws. Procedure: Wind the insulated copper wire into a coil with about four or five loops with around 2.5 cm diameter. Leave some length at both ends free. Warp the uncoiled ends around the coil in opposite direction to the loops to keep the coil firmly in place as a coil. Leave 5 cm protruding at both ends after doing this. Use the wire stripper to strip off the insulation at both protruding ends of the coil. Use the black marker to colour one side of one protruding end of the coil. That is, if you turn the wire around you should be able to see the bl

Cotton Ball Rocks?

They start out soft and fluffy and end up hard like a rock! Count, sort, stack them; kids will have a blast with cotton ball rocks! They can create a rocky dinosaur land with them. Also, they can have super heroes throw them with their super strength and power! Materials: cotton balls 1 cup of flour 1 cup of water food coloring (optional- you can paint them when they come out of the oven to look like real rocks) How to: 1. Mix up the flour, water, (and food coloring). 2. Dunk cotton balls one at a time in your mixture (fully coat them). 3. Spread them out on a greased cookie sheet. (You can also arrange them close together to create shapes or letters). 4. Bake in a 300 degree oven for 45-60 minutes. Preserve and treasure your rocks or crunch them open by stepping on them! They are crunchy on the outside and still soft and fluffy on the inside!

Salt-Absorbing Art and Science

Color magically moves along the salty lines as it absorbs into your design, creating beautiful works of art! Materials: Black construction paper Elmer's glue Table salt Medicine/Eye dropper Water Food Coloring Instructions: 1. Squirt glue in a cool design on construction paper. 2. Pour salt over the top, coating the glue, shake excess off . 3. Mix water and food coloring (make vibrant, it will be lighter when it touches the salt). 4. Use dropper and drop liquid color on design line. The salt will absorb the colored water and spread. Watch the color magically get pulled down your design!

Color Changing Glue Art

Put a spin on the color changing milk experiment by replacing dairy with glue. Materials: Overhead transparencies or acetate Elmer's glue Liquid watercolor Eye/ Medicine droppers How to: 1. Squeeze out a puddle of glue on top of a transparency (laid on newspaper- for tidiness). 2. Drop paint onto your glue puddle. 3. Let it dry overnight. 4. The next day, cut out your transparency. 5. Punch a hole in it and string it with yarn. That's it, super simple and very intriguing!

Baking Soda Clay

Materials: 1 cup corn starch 2 cups baking soda 1 1/4 cups cold water Non-stick pot Spoon Large bowl Damp cloth 1. Combine and cook ingredients in pot, over medium low heat, stirring constantly (should be consistency of mashed potatoes). 2. Remove from heat and transfer to a bowl. Then, cover bowl with a damp cloth until cool to touch. 3. Have fun sculpting whatever you please! When finished, let art dry for 2 days. Drying time can be sped up in a 150 degree oven, with the door cracked open. Also, you can heat it in a 350 degree oven that is turned off (preheat the oven and turn off once heated). 4. Finally, paint your piece. To ensure preservation, top paint with a varnish coat.

Oil Sun Catcher

Materials: Construction paper Bowl Marker Scissors Baby oil Water Small plastic container Cotton swabs Instructions: Cut out a circle Pour a little oil in a bowl. Have the child dip their q-tip and draw a design on the circle. Hang the design in a window and watch it glow in the light. Make it an experiment: Try dipping your q-tip in water and draw on another circle. Does the water create the same effect? Project via Education.com

Grow a Pineapple Plant!

1. Cut the top of the pineapple off (leave 1"of flesh below the greenery. Then, remove all of the flesh from the pineapple. You can also pull the top of the pineapple off (see video). Pull off the leaves from the bottom. You will start to see roots. 2. Some people say to place the top in a dish of water to grow roots. However, you can just plant the top right in soil. The video will explain. 3. Water twice a week straight down the middle. (The dirt should be damp not flooding). With patience, you will have an edible pineapple in 24-36 months! In the meantime, you have a cool looking plant!

Bead Bowls

1. Oil oven safe bowls 2. Evenly spread beads in bowl and bake at 400 degrees for 10 minutes. Keep your eye on the beads, they cook fast! Take them out when the beads are flat with large holes. When cool, rinse the oil off with tap water and soap. 3. Colorful and playful mini bead bowls

Wow, what an Air-Gun

Articles Required : A 15-cm long metal or glass tube, potato, pencil. Cut 4-5 mm wafer-thin potato slices. Now take the metal tube and press hard its one end against a potato slice. This end will get closed. Now similarly press the second end and close it also. With the pencil, force the potato piece of one side a little further down in the tube. Now. point it towards the target. Use your .pencil as the trigger and push it in the tube. The wafer on the other side will act as a shot and hit the target with a 'pop' sound! So, how about making a harmless and inexpensive airgun? An airgun—in real sense.

Funny Diver !

Articles Required : A tall glass, dropper, one thick-rubber balloon, rubber bands. Fill the glass with water leaving one-eighth of it empty. Then fill the dropper also with water sufficient to hold it erect in the glass. Now float the dropper in the water of the glass and stretch a rubbr balloon on its mouth. To make it air-tight use rubber bands on top. That's all. Your preparations are done! Just press the rubber top lightly with finger tip. What happens? The dropper, like an expert diver, dives towards the bottom! If you keep on pressing it, it will reach and touch the bottom. And on the contrary, as you take away your hand from the rubber sheet, the dropper jumps back to the water surface. Under pressure, the air contracts more than water. So as the rubber lid is pressed down, the air is pressurised and this in turn puts pressure on the water as a result of which the water forces its way into the dropper and pushing its air,.fills it. So the dropper dives down.

Water boils without fire

Articles Required : One round-bottom flask with a tight-fitting cork, water and arrangement to heat it. We all know that water boils at 100° C. But this fact is not true in all the conditions. So we can say that the boiling point of water is 100° C at the sea-level under normal conditions. So higher you go, the air pressure decreases correspondingly, and as a result the water boils at a much lower temperature. By the same principle, deeper one goes the boiling point of water increases correspondingly. So, if you want to prove this fact through experiment just fill your flask with water and put on fire to heat. Now when the water begins to boil, and the flask is full of steam produced by the boiling water, tighten the cork on its mouth. Remove it from the fire and hang the flask upside-down as shown in the figure here and make sure that the water is not boiling now. Once the water surface-is quiet, just squeeze some cold water on its top with the help of a cloth piece. But

Ice with Boiling Water

Articles Required : A candle, test-tube, ice cubes, a piece of thick wire and a matchbox. If you are given a pot full of water with an ice cube in it, and asked to heat the water in such a way that it gets converted into steam without affecting the ice cube at al!, would you be able to do it? No? Well, you're right in a way. On the face of it, it sounds quite silly. On one side the. ice doesn't melt and on the other water containing it starts boiling! But the most amazing thing about it is that it's possible. And this experiment would prove that water is not a good conductor of heat. Moreover, it becomes light on heating and rises upwards while the cold water takes its place. Now if you want to prove it through experiment, do as explained here. First of all, take a test-tube and fill three'-fourths of it with water. Now take an ice cube and coil the wire around it. Drop it in the test-tube. Normally, the ice floats on water, but because of the wire, it

Water that boils instantly !

Articles Required : A strong solution of ammonia water, a beaker, stove or heater. If you don't believe it, try this experiment. Take a beaker or any other glass-vessel which won't break on a heater. Fill three-fourths of it with the strong solution of ammonia water. Now the moment you put it on the heater, almost immediately bubbles start rising from the bottom of the liquid to its surface. Can any liquid boil so fast? Would you believe it? No! Then what happens in this case ? Why do bubbles form ? All this happens because you have a very strong ammonia solution and it means that water contains a great deal of ammonia. Thus when it's heated it's unable to contain all the ammonia gas any more. So, as the temperature rises the ammonia emerges out of it in the form of bubbles, and you get the impression that the solution is about to boil. When you put water in a pot to make tea, what's the indication that it's about to boil ? The bubbles! Isn'

Water boils in a Paper Pot

Articles Required : A sheet of thick paper, paper-clips, water, fire. I You've of course seen water boiling in ali kinds of utensiis but when the pot happens to be of paper, things are more than interesting. Doesn't it seem incredible? Well, why don't you try yourself. As shown in the figure here, make a paper pot wjth the heip of the clips. Now fill it with water and burn a candle under it. Be carefui about one thing. The flame should not reach that part of the pot which is untouched by water. After some time, the water will start boiling without burning the paper. How does it happen? In fact the water takes away ail the heat before the paper can reach its burning point. The water boils at 212°F and at this temperature it gets converted into steam. And as the temperature doesn't go above it, the pot can't reach its ignition point which is much higher than the boiling point of water.

Soap-driven Boat !

Articles Required : A cardboard piece, soap, a pan full of water. • A boat driven by soap! Doesn't it sound strange? Well, not only it's possible, you can even make one yourself and simply surprise all your friends. Cut out a boat-like figure from the cardboard piece, and fix two soap pieces at.its back as shown here. Now, if you want, your boat should follow a circular path instead of going straight, you can join a cardboard piece at the back to act like a rudder. Well, your boat is ready. As you put it in a big pan of water, it will start sailing. How does it happen? As the soap dissolves in water, it reduces the surface tension at the back of the boat and due to the difference in surface tensions on two sides of the boat, it is pushed forward. But as soon as the soap gets dissolved in all of water the boat becomes stationary. Why? Because of the dissolution of soap in the water/the surface tension of the whole body of water becomes the same. And thus th

Pulse Moves Pin !

Articles Required : A drawing pin and a match. You have often noticed the doctors or 'vaidyas' feeling the pulse of their patients to diagnose the diseases. In fact, the heart pumps the blood to the various organs of the body through arteries. So, just by" putting the finger at some particular artery, the pulse rate can be gauged. And this helps in the diagnosis. Just put your fingers at the right place on wrist of your other hand. Can't you feel it? Here we are telling you a magic trick through which you will not only feel but also be able to 'see' it clearly. Take the match and insert the drawing pin into its back. Make sure that its a pin with a curved top. Now if you put this pin on the -point where you can feel the pulse, the match will move back and forth with every pulse beat. And thus you will not only feel but also 'see' the pulse movement.

Pretty Garden—without plants !

Articles Required : A large glass case, water glass, metallic salts and water. Most of us live in crowded places— where we don't even have community parks, what to talk of a house garden. Then how would you react if we show you a way to grow a garden inside your own room and that too within a few hours? Aren't you surprised? Come, let's begin. First of all, put a thick layer of sand in the glass case. Now pour water-glass and add plain water in it. You know what water-glass is? It is the same thing which is used to preserve fish eggs in acquariums. Having got this ready, you have to sow the 'seeds'. Your 'seeds' are the grains preferably of 1 mm size, of metallic salts like copper chloride, copper sulphate, lead nitrate, manganese sulphate, aluminium sulphate, ferrous sulphate, ferrous chloride, copper nitrate, nickle sulphate, cobalt chloride and cobalt nitrate etc. These are available from a chemist shop. These 'seeds' must

Picture made by Fire

Articles Required : Cobalt chloride, cobalt acetate, cobalt oxide dissolved in acetic acid with a little potassium nitrate, brush a sheet of paper. You must've heard of special inks which, when used on the paper, remain invisible, and can be seen only through some special method. But, here instead of inks we are going to talk about colours that have almost similar properties. In beginning the picture made with these colours will remain invisible but on heating a little it will come to life with cheerful pink, blue and green colours. To make such colourful pictures, prepare three solutions in separate glasses. Be careful to keep them separate even when you are using them on paper. Your three solutions are colourless, so when you make a painting with these on the paper it would appear invisible. However, while applying the solutions you've to keep one solution from touching the other. Of course this is a difficult task, but with a little care you can do it. When

Magic Pictures !

Articles Required : Two books, one glass sheet, cork, brush, a little glycerine. With the help of brush and glycerine, make a figure on the glass sheet. Now, show it to the spectators from the reverse side. And take care to keep the light source also on the reverse side. First grate the cork into fine, smaller pieces. You can do this with the help of a grater used in the kitchen. Put these pieces between the books and then draw the figure on the glass sheet as described above. Now lift the top book and put glass sheet on the cork pieces with the glycerine-coated side facing downwards. If you start rubbing the sheet' top with woollen cloth, it would be charged with electricity.. As a result, the cork dust would get stuck to the glass. But when the rubbing is stopped, most of the dust would drop back on the table, except from the glycerine-coated part. Now lift the sheet and blow off the extra cork dust around the figure. Your picture is ready. A magic picture for

Dancing Doll !

Articles Required : One sheet of glass, a little thin paper, silk cloth, two books, a pair of scissors. Take a piece of thin paper and draw a pretty figure of a doll on it. In height the doll should be a little 'smaller than the thickness of the books you've taken. Keep the two books separately at a distance and place the glass sheet on the top. Put the doll under the sheet. Now rub silk cloth on the glass top. As the glass is rubbed, it gets electrically charged and attracts the doll. The moment your doll touches the sheet, it also gets charged and is repelled. But when it falls down, it's deprived of the charge and, as a result, is again attracted by the glass sheet. So, as long as you keep on rubbing the sheet with silk, this dance will continue. For better results do two things. First, bend the doll's feet a little and join to the surface on which it's laid. Second, keep the base surface metallic—using aluminium or some other light metal.

Smoke Goes Down !

Articles Required : An empty cardboard shoe-box, two chimneys of kerosene lamp, candle, cigarette and matchstick. Whenever you burn something the smoke moves upwards. Isn't it? Now, how would you react if you're asked to make it go downwards? Will you be able to do it? Well, once you try the experiment explained below, you'd naturally quip after that "Oh, it was so easy!" Make two holes in your shoe-box as shown in the figure here and fix the chimneys in both of them. If you can't find such chimneys, you can use even the empty talcum powder tins after cutting their tops and bottoms. Having done this, remove the shoe-box cover and put a burning candle just below the left chimney. Now replace the cover and paste cello-tape on the joint of box and its cover to restrict air entry from the slit. Now, if you light a cigarette and bring it on top of the second chimney, something interesting would happen. The cigarette smoke, instead of going upwar

The Dancing Couple

Articles Required : Two long thin needles, a piece of cardboard, a pair of scissors,kfive pieces of cork (one big, four small) and camphor. Make a figure of a dancing couple on the cardboard. Cut it along its outline, and stick it on the bigger cork with glue. Once it's firmly stuck, pierce two needles into the big cork making a 90° angle, to each other. Now on their four ends, insert small corks. Try to make the base as compact as possible. But in any case its diameter should never exceed 5 cm. Stick camphor grains on the sides of four outer corks with the help of pins and place it on water surface. If it has been made as described above, the cardboard couple will turn around and move about—as if the couple has begun its waltz. In order to have a flawless performance, you must remove all traces of oil from the container and corks. You can do this by washing these articles well with hot water mixed with soda.

The Umbrella Dance !

Articles Required : An umbrella with a "U" handle, a bottle in which umbrella handle can be inserted, string and a piece of chalk. First rub the chalk on the string. Tie this string loosely to two points of opposite walls of a room. Now insert the umbrella handle in the bottle," and try to balance the bottle on this string. Once you've found the balancing point, your job is over. Now as you give it a light jerk it will start dancing like an acrobat—going up and down in a funny manner

Magic Butterfly !

Articles Required : A thin cardboard sheet, two small coins, adhesive tape, one broom-straw. What about having a 'magic butterfly' that can sit on your fingertip without any support? Try making it today itself because it's very simple. First of all, cut out a cardboard piece in the shape of a butterfly. Now paste a white paper on it and paint in pretty 'butterfly' colours. Now paste a coin each under butterfly's two wings as shown in the figure. Also paste the broom straw right in its centre with its ends protruding a little from its mouth and tail. Well, your 'magic' butterfly is ready. If the coins have been pasted in such a way that its centre of gravity falls on the top of its head, it can be balanced on the tip of your forefinger very easily to enchant everybody present around you.

Colorful Convection Currents !

Articles Required : Three tablets of water colours, hard-glass jar. When you heat water, only a part of it comes into a direct contact with its container which is being heated. But strangely enough, the temperature of entire body of water rises uniformly. So, it means that the heat absorbed by the container spreads equally throughout the entire liquid. The most interesting fact about it is that this process of heating is not haphazard and takes place in a very systematic manner. You can witness it through the experiment explained below: Fill three-fourths of glass jar with water. Drop small pieces of water-colour tablets into it. Now you'll notice that as this water gets heated, coloured currents emerge from the tablet pieces and come down almost touching the container walls in the form of a fountain. Do you know why it happens like this? As the water at the bottom gets heated, it becomes lighter and rises upwards. It makes a place for itself at the top displacing th

Color Absorbs Heat !

Articles Required : An ice slab, four cloth-pieces of different colours (at least one black and one white). Doesn't it sound strange that different colours absorb different amount of heat? Coming to think of it, what have colours to do with heat or cold ? But if you ponder a little deeply over it you would realise, that there is some weight in the argument. That's why we wear soft shades in summers and dark colours in winters. How would you react if some friend calls it your whim and challenges you to prove it? Well, there is nothing to mind in that. After all'the basis of science is demonstration and experiment. So, how will you prove this to him? Come, we'll tell you here. First of all, take a large slab of ice whose one surface is smooth and even. If it's not, make it so with the help of some hot object. Now take four rectangular cloth pieces, equal in size but in different colours. Yes, one of these must be white, one black and the other two of

Matchstick with Sweet-Tooth

Articles Required : Amatchstick, a tub of water, sugar cube or sugar. First of all, fill your tub with water. When the water surface is absolutely quiet and no bubbles are seen, just put a matchstick at the centre of the water surface. Now hang a sugar cube with thread at a distance of about three-four centimeters from the matchstick in such a manner that half of it remains submerged in the water. Yes, one thing: while handling these things take care not to create any disturbance in the water. If you can't get a sugar cube, don't worry, you can just make a small pocket of sugar and hang it instead of the cube. After sometime you'll notice that the matchstick starts sliding towards the sugar cube, as if attracted by sweet. But do you know what is the actual reason behind it? The sugar dissolves in water and makes a sweet solution. Being heavier than plain water, this sweet solution starts settling down. In this condition the water rushes from all directio

Science becomes your gardener

Articles Required : A potted plant, a pot full of water, a piece of cotton string. Many people are fond of indoor plants. But they hesitate to go in for them only because of the extra care they call for. For instance, who would look after them when the whole family is away on a vacation? At some places the neighbours might take care of them, but you don't always have such caring neighbours. Then what to do? Shouldn't one have indoor plants only because one likes to enjoy some vacation. Now go wherever you want to without worrying for your plants. In your absence, the science will take over the task of watering your plants. Well, get to know here how it's done. Place your water container at some high place and put your potted plant somewhere near it, at the bottom, as shown in the figure here. Now take your cotton string and insert its one end in pot's soil and dip the other in the container. As you do it, the water will first start moving up through the s

Sunspots

Aim: To make a simple apparatus to view sunspots without harming your eyes. Materials required: A sheet of white paper. A telescope or if telescope is not available, a shoe box with a hole on one of the ends. Procedure: Hold the white sheet of paper in your hand or clip it onto a clipboard. Point the objective lens of the telescope towards the sun and the eyepiece towards the sheet of paper so that you get a circular image of the sun on the paper. Adjust the focusing knob on the telescope to get a sharp image. Observe and see if you can see dark spots on the bright disc like image of the sun. You may have to do the experiment on several days to see these spots. If you do not have a telescope available, simply make a hole in one end of a shoe box and face the side with the hole towards the sun so that the image of the sun falls on the opposite side of the shoebox. Scientific explanation: The sun is not uniformly of the same temperature. Some spo