When you rub wool on a balloon, electrons are transferred from the wool to the balloon, resulting in the balloon gaining a negative charge. This process is known as triboelectric charging, where different materials have varying affinities for electrons. As a result, the wool becomes positively charged due to the loss of electrons. The buildup of charge on the balloon allows it to attract neutral objects or repel other charged objects.
Rubbing a balloon on your hair creates static electricity, which causes your hair to have a positive charge. The balloon, in turn, becomes negatively charged. Opposite charges attract, so the negatively charged balloon will attract the positively charged hair, causing it to stick to the balloon.
The friction between two different materials in the right combination (this case your hair and a rubber balloon) causes free valence electrons (the electrons in the outer most orbit around an atom) to move from one item to the other, causing an excess of electrons (negative charge) in one and a deficit (positive) in the other. When put near the paper with an opposite charge, the paper will jump to the balloon. Opposites attract.
SCIENCE! Two factors enable the match to ignite: rubbing causes friction which causes heat, and the side of the matchbox also contains a catalyst which aids combustion.
No. The bearings are well lubricated.
When a plug circuit overloads, it causes excessive heat buildup in the wiring and electrical components, which can lead to melting, burning, or even a spark that can cause a fire. Additionally, the overload can damage electronic devices and appliances connected to the circuit by delivering too much electrical current than they are designed to handle.
Rubbing a balloon creates static electricity. This is when the friction between the balloon and another object causes electrons to be transferred, leading to a buildup of static charge on the balloon.
Yes, rubbing a balloon against your hair can create a static charge. This is because the friction between the balloon and your hair causes the transfer of electrons, leading to a buildup of static electricity on the balloon.
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.
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.
1. Rubbing the balloon to your hair causes the balloon to "steal" electrons from your hair. 2.The balloon has a buildup of electron so it has a negative charge. your hair has lost electrons so it becomes positively charged. 3.Because opposites attract the negatively charged balloon will stick or if there are enough electrons on the balloon they will try and "Jump" the wall and will make a small zap by:Zimran Reubin
Rubbing a balloon on your hair creates static electricity, which causes your hair to have a positive charge. The balloon, in turn, becomes negatively charged. Opposite charges attract, so the negatively charged balloon will attract the positively charged hair, causing it to stick to the balloon.
the heat makes the molecules inside the balloon travel faster, pushing outward on the balloon. This, the balloon expands when heated
Rubbing a balloon on your head creates static electricity. The balloon becomes negatively charged, which attracts the positively charged paper bits. This attraction causes the paper bits to stick to the balloon.
Rubbing a balloon against clothing creates static electricity, causing the balloon to develop a negative charge. The negative charge on the balloon attracts the positive charges in the clothing, leading to an electrostatic attraction that causes the balloon to stick to the clothing.
Rubbing a balloon on your hair creates static electricity, which is generated by the friction between the balloon and hair. This static charge causes the hair strands to become positively or negatively charged, leading them to be attracted to the negatively or positively charged balloon.
Rubbing a balloon on hair creates static electricity because the friction between the two surfaces causes electrons to transfer from one to the other. This imbalance of electrons creates a negative charge on the balloon and a positive charge on the hair, leading to the attraction and repulsion of the charges, resulting in static electricity.
When you put a balloon in hot water, the air inside the balloon will heat up and expand, causing the balloon to inflate and possibly burst due to the pressure buildup. The heat causes the air molecules inside the balloon to move faster and spread out, increasing the volume of the air inside the balloon.