When a balloon is rubbed against a cloth, electrons are transferred from the cloth to the balloon. This causes the balloon to become negatively charged and the cloth to become positively charged. The movement of electrons between the objects creates static electricity.
When the balloon is rubbed against someone's sleeve, electrons from the sleeve are transferred to the balloon, causing it to become negatively charged. This imbalance of electrons on the balloon's surface creates a negative charge.
Rubbing silk on a balloon causes the balloon to acquire a negative charge. This is because silk tends to lose electrons when rubbed against the balloon, leaving the balloon with a surplus of electrons and therefore a negative charge.
When a rubber balloon is rubbed against wool, the balloon gains electrons from the wool due to the friction between the two materials. This transfer of electrons causes the balloon to become negatively charged while the wool becomes positively charged. The balloon will then be attracted to positively charged objects and can even stick to them momentarily due to this electrostatic force.
Rubbing a balloon against a wall transfers electrons from the wall to the balloon, giving the balloon a negative charge. This charge causes the balloon to stick to the wall due to electrostatic attraction.
When a balloon is rubbed against a wool cloth, electrons are transferred from the wool to the balloon, leaving the balloon with an excess of electrons and a negative charge. This transfer of electrons is due to the difference in the materials' electron affinities, causing one material to lose electrons (becoming positively charged) and the other to gain electrons (becoming negatively charged).
When the balloon is rubbed against someone's sleeve, electrons from the sleeve are transferred to the balloon, causing it to become negatively charged. This imbalance of electrons on the balloon's surface creates a negative charge.
Rubbing silk on a balloon causes the balloon to acquire a negative charge. This is because silk tends to lose electrons when rubbed against the balloon, leaving the balloon with a surplus of electrons and therefore a negative charge.
When a rubber balloon is rubbed against wool, the balloon gains electrons from the wool due to the friction between the two materials. This transfer of electrons causes the balloon to become negatively charged while the wool becomes positively charged. The balloon will then be attracted to positively charged objects and can even stick to them momentarily due to this electrostatic force.
Rubbing a balloon against a wall transfers electrons from the wall to the balloon, giving the balloon a negative charge. This charge causes the balloon to stick to the wall due to electrostatic attraction.
When a balloon is rubbed against a wool cloth, electrons are transferred from the wool to the balloon, leaving the balloon with an excess of electrons and a negative charge. This transfer of electrons is due to the difference in the materials' electron affinities, causing one material to lose electrons (becoming positively charged) and the other to gain electrons (becoming negatively charged).
The rubber balloon becomes negatively charged when rubbed with a woolen cloth. This is because electrons are transferred from the wool to the balloon, leaving the balloon with an excess of electrons and a negative charge.
Yes, when a balloon is rubbed with wool, electrons are transferred from the wool to the balloon. This causes the balloon to become negatively charged as it gains extra electrons. This process is known as static electricity.
electrons are transferred from the wool cloth to the balloon, leaving the balloon with more electrons than protons, giving it a negative charge.
When a balloon is rubbed against an iron rod, static electricity is generated. This happens because the rubbing creates a transfer of electrons between the two materials. The balloon becomes negatively charged while the iron rod becomes positively charged, leading to attraction between them.
The rubbed balloon becomes negatively charged from the transfer of electrons. The wooden wall becomes positively charged because it loses some electrons to the balloon. Opposite charges attract, causing the balloon to stick to the wall.
When a balloon is rubbed with a wooden sleeve, it gains a negative charge. This happens because electrons are transferred from the atoms in the wooden sleeve to the atoms in the balloon, leaving the balloon with an excess of electrons and thus a negative charge.
A balloon becomes negatively charged when rubbed with wool cloth. This happens because the balloon gains electrons from the wool cloth during the rubbing process, giving it a net negative charge.