How Does Charging a Ball Affect Its Pendulum Motion?

In summary, when a small ball is hanging vertically below a positively charged plate and released with a small angle, it will swing in periodic pendulum motion. If the ball becomes positively charged, the period remains the same because the electric force included in the differential equation for a simple pendulum has the same form as the solution, making the period remain unchanged.
  • #1
einsteinette
12
0
HI,

So say you have a small ball hanging vertically below a positively charged plate. When the ball is released from rest with the string at a small angle to the vertical, it swings in periodic pendulum motion. If the ball is now positively charged, does the period increase, decrease or stay the same? And why?

- Well at first, when it's neutral, there would be a slight attraction between the ball and the charged plate. But when the ball becomes positive as well, there would be now a slight repulsion. So would it stay the same?
 
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  • #2
Do you know the differential equation for a simple pendulum? You could derive a similar equation with the electric force included. The solution should have the same form, so the period should be fairly obvious
 

What is electricity?

Electricity is a form of energy that results from the flow of electric charge. It can be either static electricity, which is the accumulation of electric charge on the surface of an object, or current electricity, which is the movement of electric charge through a conductor.

What is magnetism?

Magnetism is a force that is exerted by certain materials, such as iron and nickel, that have the ability to attract or repel other materials. This force is caused by the alignment of the electrons in the material, which creates a magnetic field.

What is the relationship between electricity and magnetism?

Electricity and magnetism are closely related and are actually two aspects of the same fundamental force. When an electric current flows through a wire, it creates a magnetic field around the wire. Similarly, a changing magnetic field can induce an electric current in a wire.

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Electricity and magnetism have numerous practical applications, including powering our homes and electronics, generating energy from renewable sources, and in medical technology such as MRI machines. They are also essential for transportation systems, such as trains and electric vehicles.

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Electricity and magnetism play a crucial role in our daily lives, from powering our devices and appliances, to lighting our homes, to enabling communication and transportation. Without these forces, many of the conveniences and technologies we rely on would not be possible.

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