Pepper sticks to a balloon due to static electricity. When the balloon is rubbed against hair or clothing, it gains an electric charge. The pepper, being lightweight, is attracted to the charged balloon and sticks to it.
static electricity
Pepper moves due to the attraction of positively and negatively charged particles from the glass rod that is rubbed against the sweater, causing the pepper to be attracted to the rod. This phenomenon is known as static electricity, where opposite charges attract each other.
When the sweater is pulled over the head, the friction between the hair and the fabric generates static electricity. This static electricity causes the hair to be attracted to the sweater as the opposite charges (positive and negative) between the hair and the fabric interact.
opposite electric charge
Dust will be attracted to a CD wiped with a dry cloth because it generates static electricity. This in turn causes dust to be attracted.
You can move a drinks can with a balloon by creating static electricity on the balloon and then using that static charge to attract the can. Rub the balloon against your hair or a piece of fabric to generate static electricity, then hold the balloon near the can to make it move. The can will be attracted to the charged balloon due to static electricity.
Thales of Miletus is said to have discovered static electricity around 600 BCE. He observed that when amber was rubbed with fur, it attracted lightweight objects like feathers.
Thales of Miletus, a pre-Socratic Greek philosopher, is often credited with discovering static electricity around 600 BCE. He observed that amber, when rubbed with fur, attracted lightweight objects—a phenomenon now known as static electricity.
it makes the dust unable to settle as the dust is attracted to the static of the sofa when a material is rubbed against it. With the antstatic it is not attracted to the sofa and will not settle
static electricity is static electricity
Static electricity and magnets both involve the attraction and repulsion of objects without direct contact. In static electricity, charges build up on objects that can attract or repel each other. In magnets, magnetic forces cause objects to be attracted or repelled based on their poles.