The electric discharge from a charged balloon would happen more slowly in dry air compared to humid air. This is because dry air is a better insulator and does not conduct electricity as easily as humid air, which contains more water molecules that can facilitate the flow of charged particles.
Rubbing a balloon with your hand will cause the balloon to become negatively charged. This is due to the transfer of electrons from your hand to the balloon, creating a static electric charge. The negatively charged balloon can then attract positively charged objects or even stick to certain surfaces due to static electricity.
An electric discharge is a flow of electric current between two charged areas that have a potential difference. This can happen when electrons move from the negatively charged area to the positively charged area, creating a brief burst of energy in the form of light or heat, such as lightning during a storm.
If a charged balloon touched a neutral balloon, electrons from the charged balloon would be transferred to the neutral balloon, causing the neutral balloon to become negatively charged. This is due to the principle of electrostatic induction.
When a charged balloon is allowed to touch a neutral balloon, some of the charge from the charged balloon will transfer to the neutral balloon. This transfer of charge will cause both balloons to become slightly charged.
When you rub a balloon against a wool cloth, the balloon becomes negatively charged due to the transfer of electrons. When placed against a wall, the negatively charged balloon is attracted to the positively charged wall, causing it to stick temporarily due to electrostatic forces.
Rubbing a balloon with your hand will cause the balloon to become negatively charged. This is due to the transfer of electrons from your hand to the balloon, creating a static electric charge. The negatively charged balloon can then attract positively charged objects or even stick to certain surfaces due to static electricity.
An electric discharge is a flow of electric current between two charged areas that have a potential difference. This can happen when electrons move from the negatively charged area to the positively charged area, creating a brief burst of energy in the form of light or heat, such as lightning during a storm.
If a charged balloon touched a neutral balloon, electrons from the charged balloon would be transferred to the neutral balloon, causing the neutral balloon to become negatively charged. This is due to the principle of electrostatic induction.
When a charged balloon is allowed to touch a neutral balloon, some of the charge from the charged balloon will transfer to the neutral balloon. This transfer of charge will cause both balloons to become slightly charged.
The positively charged balloon and a soft drink can will pull negatively charged objects towards them
When you rub a balloon against a wool cloth, the balloon becomes negatively charged due to the transfer of electrons. When placed against a wall, the negatively charged balloon is attracted to the positively charged wall, causing it to stick temporarily due to electrostatic forces.
Rubbing a balloon over fabric creates static electricity, causing the balloon to become negatively charged. The negatively charged balloon will then be attracted to positively charged objects, such as certain types of fabric or even hair, due to an opposing charge.
they will repel
When a balloon is rubbed with polythene, electrons transfer between the two materials causing the balloon to become negatively charged. The negatively charged balloon will attract the neutral piece of paper due to the electrostatic force between opposite charges.
Rubbing a piece of cloth on a balloon creates static electricity. The friction between the cloth and the balloon transfers negatively charged electrons from the cloth to the balloon, causing the balloon to become negatively charged. This static charge can then attract or repel other objects, such as small pieces of paper or hair.
The electrons in the neutral object will be attracted towards the negatively charged balloon, causing them to move slightly towards the side of the object closest to the balloon. This redistribution of electrons creates a slight imbalance in charge on the object, resulting in a temporary induced charge separation.
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.