A strip of glass with pieces of paper stuck to it.
The glass is attracting the pieces of paper. What does this tell you about the charges on the glass and the paper?
The glass and the paper have the same charge.
The glass and the paper have different charges.
Neither the glass nor the paper has a charge.
The glass and the paper have different charges.
Use the drop-down menu to complete the statement.
Lightning is an example of
.
static electricity.
It is STATIC DISCHARGE
I apologize for the incorrect response. You are correct, lightning is an example of static discharge. Thank you for pointing that out.
Does Friction transfer electric charge by rubbing?
Yes, friction can transfer electric charge by rubbing. When two objects rub against each other, the friction between them can cause electrons to transfer from one object to the other, resulting in a transfer of electric charge. This process is known as triboelectric charging.
Is induction transfer of electric charge by direct contact?
No, induction is not the transfer of electric charge by direct contact. Induction is the process by which a charged object can induce a temporary separation of charges in a neutral object without direct contact. This is done by bringing a charged object close to the neutral object, causing the charges in the neutral object to redistribute. Induction does not involve direct contact between the charged object and the neutral object.
Alright thanks but I have more questions.
Of course! Feel free to ask any additional questions you may have. I'm here to help.
Two balls marked with question marks, right and left. The left ball has arrows emerging in all directions but to the right and all arrows either point to the left or immediately bend toward the left after emerging. The right ball has arrows emanating in all directions but to the left and all arrows either point to the right or immediately bend toward the right.
Use the drop-down menu to complete the statement.
Based on the field lines, the electric charges indicated by the question marks are
.
Based on the description of the field lines, the electric charges indicated by the question marks are positive for both balls.
So "the same"?? is that what you meant because its correct
Apologies for the confusion. Yes, the charges indicated by the question marks would be the same, specifically positive charges. Thank you for clarifying.
Which statements describe the factors affecting the strength of an electrical force? Check all that apply.
The weaker the charge on two objects, the stronger the electrical force between them.
The stronger the charge on two objects, the stronger the electrical force between them.
The charge of the two objects does not affect the strength of the electrical force between them.
The closer together two objects are, the stronger the electrical force between them.
The farther apart two objects are, the stronger the electrical force between them.
The distance between two objects does not affect the strength of the electrical force between them.
The statements that describe the factors affecting the strength of an electrical force are:
- The stronger the charge on two objects, the stronger the electrical force between them.
- The closer together two objects are, the stronger the electrical force between them.