blow up run through tunnels Great Science Experiments for Kids

Scientific experiments are an interesting way for children to be interested in learning.These experiments explain the electricity around us and teach the children the basic principles of static electricity.Scientific experiments are an interesting way for children to be interested in learning.
These experiments explain the electricity around us and teach the children the basic principles of static electricity.Charging the fluorescent bulb target: This project shows how our body contains electricity and how friction generates static electricity.Material needed: comb, wool scarf or sweater, dark room and fluorescent bulb.
Experiment: enter a dark room with the materials used in the experiment.Let a student pass the comb through his hair about 20 times.In addition, the comb can be rubbed back and forth on a wool sweater or scarf to achieve the same effect.
Rubbing the comb through the hair or scarf causes the electrons to enter the comb.Friction causes the student's body to be positively charged and the comb to be negatively charged.Now put the comb on the metal end of the fluorescent bulb and watch it flash in the dark room.
When the electrons enter the metal end of the bulb from the comb, the bulb starts to flash when using power.This experiment can be used to teach children about positive and negative electrons and static electricity.Use Force Objective: This project shows how water is attracted to electricity.
Required materials: plastic comb, wool jumper or sweater, and tap water experiment: charge the comb by running back and forth on the student's hair or on a jumper or wool sweater.Once the comb is charged through static electricity, turn on the tap water so there is a small steady flow.Now, pick up the comb and slowly move towards the tap water, be careful not to let it touch the water.
When the comb begins to approach the flow of water, the students observe that the water begins to bend towards the comb with positive electricity.This experiment can be used to show students that water is conductive and that electricity is directed towards water.This is a good experiment that can be used to teach children to stay safe in a hydro environment.
Dance paper towel target: This project demonstrates the pull of static electricity.Required materials: small glass (about 5x10 inch), plastic zipper lock bag, two large books, small pieces of paper (good effect of punched paper), foam egg carton material, metal pie plate, scissors, notebook paper experiment: put the two books on the table, a few inches apart.Sprinkle torn pieces of paper between the two books, and then carefully place the glass pieces on it.
A piece of paper should be seen under the glass between the two books.Start the experiment by slowly rubbing plastic bags back and forth on the glass.When static electricity starts to accumulate between glass and plastic defects, the paper starts to react.
Ask students what happens if you wipe the glass faster or slower.Demonstrate these changes to see if the student is able to successfully predict what will happen.This experiment can also be done by quickly rubbing balloons back and forth on the glass.
Ask students to record their observations in the Journal of Science.Grumpy balloon target: this experiment will show how two objects with the same charge resist each other.Material required: two balloons, ropes, tape, wool sweater or scarf, scissors and door frame experiments: cut two ropes of equal length and hang them on the door frame.
Blow the balloons up and hang them together from the rope.Make sure the balloons hang evenly and lean slightly against each other.Take a balloon at a time and rub on a wool sweater or scarf.
Once both balloons are charged, gently let them hang on the rope with each other.Observe what happens when two balloons with negative electricity stand still with each other.Because both balloons have the same charge, they resist each other and push against the rope.