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A glass rod that is charged usually attracts the small bits of paper placed near it because it is usually electrostatically charged.
yes
It illustrates that it is possible to have a great amount of voltage and a small amount of potential energy.
A great amount of voltage and a small potential energy.
when we rub the plastic scale against the hair it loses the electrons and whenever an object loses electrons it becomes positively charged .When this positively charged plastic scale brought nearer to paper pieces induces charge on it and electrons revolving in discrete orbits are attracted and nucleus is pushed back so that repulsion do not take place.
A glass rod that is charged usually attracts the small bits of paper placed near it because it is usually electrostatically charged.
Paper Hop Problem: How can we show that atoms have positive and negative charges? Hypothesis: If we can rub some electrons off an item, and make it positively charged, then it will stick to an item of the opposite charge. Materials: piece of notebook paper, paper hole puncher, small balloon, clean hair Procedure: 1. Use the hole punch to cut about 15-20 small circles from the piece of paper. 2. Spread the pieces on a table. 3. Inflate the balloon and tie it. 4. Rub the balloon against your hair about five strokes. 6. Hold the balloon close to, but not touching, the paper circles. Observations: The paper circles jump to the balloon. Conclusion: Paper is an example of matter, and all matter is made up of atoms. Each atom has a positive center with negatively charged electrons spinning around outside. The balloon rubs the electrons off of the hair, giving the balloon an excess of negative charges. The positive part of the paper circles is attracted to the excessive negative charge on the balloon. This attraction between the positive and negative charge is great enough to overcome the force of gravity and the circles will hop upward toward the balloon.
yes
It illustrates that it is possible to have a great amount of voltage and a small amount of potential energy.
A great amount of voltage and a small potential energy.
1. Rubbing the balloon to your hair causes the balloon to "steal" electrons from your hair. 2.The balloon has a buildup of electron so it has a negative charge. your hair has lost electrons so it becomes positively charged. 3.Because opposites attract the negatively charged balloon will stick or if there are enough electrons on the balloon they will try and "Jump" the wall and will make a small zap by:Zimran Reubin
when we rub the plastic scale against the hair it loses the electrons and whenever an object loses electrons it becomes positively charged .When this positively charged plastic scale brought nearer to paper pieces induces charge on it and electrons revolving in discrete orbits are attracted and nucleus is pushed back so that repulsion do not take place.
Small Balloon because it is smaller the heat is compacted and closer so the smaller balloon has more heat.
Rubbing a balloon on your head creates static electricity. This occurs due to the transfer of electrons between the balloon and your hair, causing the balloon to become negatively charged. The negatively charged balloon can then attract or repel other objects, creating small electrical sparks or causing your hair to stand on end.
The glass rod aquires static electricity.the paper bits are negatively charged and the glass rod is positively charged.when it battracts the paper ,the both aquire like charges due to which they both are repelled.
No, it's static electricity. The balloon 'steals' electrons from your shirt (triboelectric charging) leaving it with a negative charge. The water has no net electric charge, since it consists of both positively and negatively charged ions. However, the individual negative charges are repelled by the balloon, and as they move away from it they become less relevant. The attractive force felt by the positively charged ions now dominates, drawing the thread of water towards the balloon.
a small helium balloon :) i think.... i dont actually know the answer i just know that a small helium balloon will be very buoyant :)