Jump to content

Recommended Posts

Posted

Here are two questions concerning the circuit things.

 

1.In a series circuit with a bulb in the middle of it with 5V. (Please neglect resistance of wire)

My teacher said that each electronwould lose all of the energy, i.e.5J per second, after they have passed the bulb.

So it has a decline in its velocity after passing the bulb?

2.In the circuit above, a voltmeter is connected.

The voltmeter starts a new loop for the circuit, so the energy given by each electron to the bulb will change and then how does a voltmeter work?

 

Thanks for any replies.

Posted

1. the electrons still move along the wire i.e. there is still a current. but they have little to no energy available to do work.

 

2. a voltmeter is practically an open circut so its effect on the voltage across the bulb is negligble. i'm not actually quite sure how a voltmeter works.

Posted

To your first question. No, it's not a loss in velocity. Actually the drift velocity of electrons in a copy wire isn't all that great. Consider how many electrons are in a centimeter of wire. How much fast does charge need to flow to get 1A? The loss is the loss of electrical potential. You can imagine yourself on an elevator coming down from the 80th floor. When the elevator passes by the 10th floor, you are at the same speed, but you have lost gravitational potential.

 

For question 2. The voltmeter (atleast in theory) does not affect the circuit due to its very very high input resistance. Meaning no current will go into the voltmeter. Modern voltmeters will probably use a ADC (analog to digital converter) somewhere to detect the charges on internal capacitors.

Posted

The drift velocity of an electron will be approximately 1cm/s, this obviously varies, this is an approximation in more ordinary circumstances.

Posted
To your first question. No, it's not a loss in velocity. Actually the drift velocity of electrons in a copy wire isn't all that great. Consider how many electrons are in a centimeter of wire. How much fast does charge need to flow to get 1A? The loss is the loss of electrical potential. You can imagine yourself on an elevator coming down from the 80th floor. When the elevator passes by the 10th floor, you are at the same speed, but you have lost gravitational potential.

I know what the fact is, thank you.

So we get a measure of the velocity of the electrons after they pass through the bulb before getting the conclusion of they lose electric potential instead of velocity , or something else?

For question 2. The voltmeter (atleast in theory) does not affect the circuit due to its very very high input resistance. Meaning no current will go into the voltmeter. Modern voltmeters will probably use a ADC (analog to digital converter) somewhere to detect the charges on internal capacitors.

so is having high resistance is necessary for a proper voltmeter?

Posted
I know what the fact is' date=' thank you.

So we get a measure of the velocity of the electrons after they pass through the bulb before getting the conclusion of [b']they lose electric potential instead of velocity [/b], or something else?

 

Yes, we say that there is a voltage drop across the resistor. Voltage is also known as electric potential.

 

so is having high resistance is necessary for a proper voltmeter?

 

Yes. Because ideally you don't want to disturb the circuit. You want to be able to probe any two points on your circuit without changing the circuit dynamics. This is only possible if there is a high input resistance.

Create an account or sign in to comment

You need to be a member in order to leave a comment

Create an account

Sign up for a new account in our community. It's easy!

Register a new account

Sign in

Already have an account? Sign in here.

Sign In Now
×
×
  • Create New...

Important Information

We have placed cookies on your device to help make this website better. You can adjust your cookie settings, otherwise we'll assume you're okay to continue.