Yes it does when you rub the glass rod against the wool cloth the rod becomes negatively charged...therefore attracting the wool cloth
Yes, rubbing a balloon with a flannel cloth can create static electricity on the surface of the balloon, causing it to stick to the cloth due to electrostatic attraction.
You can create a static charge on an insulator by friction, such as rubbing it with a cloth or fur. This causes electrons to transfer between the insulator and the material rubbing against it, leading to a buildup of static electricity on the insulator.
Rubbing a balloon with a cloth can create static electricity on the surface of the balloon. This can cause the balloon to stick to objects or attract small items like pieces of paper.
No, rubbing a steel spoon with polythene and woolen cloth will create static electricity on the surface of the spoon, causing it to attract pieces of paper.
Rubbing a balloon on woolen cloth will generate static electricity on the surface of the balloon. The balloon will then have a negative charge, attracting positively charged objects nearby, due to static electricity buildup.
A static charge of electricity will be the result.
Yes, rubbing a balloon with a flannel cloth can create static electricity on the surface of the balloon, causing it to stick to the cloth due to electrostatic attraction.
You can create a static charge on an insulator by friction, such as rubbing it with a cloth or fur. This causes electrons to transfer between the insulator and the material rubbing against it, leading to a buildup of static electricity on the insulator.
Rubbing a balloon with a cloth can create static electricity on the surface of the balloon. This can cause the balloon to stick to objects or attract small items like pieces of paper.
Thales discovered static electricity by rubbing a peice of amber against a silk cloth.
No, rubbing a steel spoon with polythene and woolen cloth will create static electricity on the surface of the spoon, causing it to attract pieces of paper.
Rubbing a balloon on woolen cloth will generate static electricity on the surface of the balloon. The balloon will then have a negative charge, attracting positively charged objects nearby, due to static electricity buildup.
A cloth dryer generates static electricity because different fabrics rubbing against each other create friction. This friction transfers electrons between the clothing, causing them to become positively or negatively charged. When the clothes rub against the dryer drum, this can lead to a buildup of static electricity.
Rubbing a balloon on your head can produce static electricity. This can also be accomplished by shuffling your feet across a carpet, when the humidity is very low. Another method that is used in science classes is the rubbing of a glass rod against a silk cloth. This allows the transfer of electrons to the rod. Another method is the use of a Van de Graaff generator, or a Whimshurst machine.
When you rub a comb with a flannel cloth, it creates static electricity on the comb's surface. The bits of paper are attracted to the comb because of the static charge. This phenomenon is known as static electricity, where opposite charges attract each other.
You can remove static from a balloon by rubbing it with a dryer sheet or a cloth dampened with water and vinegar. The friction from rubbing helps to neutralize the static charge on the balloon's surface.
By rubbing some of the electrons right from cloth will be transferred to the record leaving cloth positively charged and record negatively. Hence the dust particles coming near the record gets ionized and get attracted towards it