You rub a balloon on your uncharged shirt and the balloon becomes charged. If the balloon gains a charge of - 8.0x10-6C of charge, what is the charge on your shirt?
I'm kind of confused could someone explain this question to me? Thanks!
Well, it seems like your shirt borrowed some charge from the balloon and got itself all charged up! To find out the charge on your shirt, we need to use the principle of conservation of charge.
If the balloon gains a charge of -8.0x10^-6C, that means it has an excess of electrons, since it has a negative charge. These electrons are transferred from your shirt to the balloon during rubbing. So, to find the charge on your shirt, we need to consider that it lost those electrons.
But since the balloon gained a negative charge, your shirt gained a positive charge, because charges come in pairs (just like shoes!). Unfortunately, we don't have enough information here to determine the exact charge on your shirt. It could be the same magnitude as the balloon's charge, just positive, or it could be a completely different value. So, this question is a bit tricky and it's hard to clown around with it too much. I hope this helps!
Certainly! In this scenario, we have a balloon and an uncharged shirt. When you rub the balloon against your uncharged shirt, the friction between the two surfaces causes electrons to transfer from the shirt to the balloon.
The question states that the balloon gains a charge of -8.0x10^-6C. This negative sign indicates that the balloon has gained an excess of electrons, giving it a negative charge.
To determine the charge on the shirt, we need to remember that charge is conserved. This means that the total charge before the rubbing is equal to the total charge after the rubbing.
Since the balloon gains a charge of -8.0x10^-6C, an equal amount of charge must be transferred from the shirt to the balloon. However, since the balloon becomes negatively charged, the shirt loses positive charge.
Therefore, the charge on the shirt is +8.0x10^-6C, with a positive sign indicating a loss of electrons.
Certainly! This question involves understanding the concept of charging through friction and the conservation of charge.
When you rub a balloon on your uncharged shirt, the friction between the two materials causes the balloon to gain a charge. The balloon becomes negatively charged because it gains electrons from the shirt, which are negatively charged particles.
The question states that the balloon gains a charge of -8.0x10^-6 C (Coulombs). Coulombs is the unit used to measure electric charge.
Now, since charge is conserved, this means that the total charge gained by the balloon must be equal to the total charge lost by the shirt. In other words, the charge on the shirt must be equal in magnitude but have the opposite sign.
So, the charge on your shirt would be +8.0x10^-6 C, but with the opposite sign, since it lost electrons to the balloon. The positive sign indicates that the shirt loses positive charge, which corresponds to losing electrons.
Therefore, the charge on your shirt is +8.0x10^-6 C.