calculate the amount of work done in shifting a charge of 2 columns from a point A to B having potential 10 volt and 5 volt respectively
Answers
The electrostatic force is a conservative force. So work done is independent of path followed and only depends on initial and final points.
The electrostatic force is a conservative force. So work done is independent of path followed and only depends on initial and final points.The way we define potential is this :
The electrostatic force is a conservative force. So work done is independent of path followed and only depends on initial and final points.The way we define potential is this :The work done in bringing a unit positive charge from a region where there is no effect of field to the point we are interested in, is called potential.
The electrostatic force is a conservative force. So work done is independent of path followed and only depends on initial and final points.The way we define potential is this :The work done in bringing a unit positive charge from a region where there is no effect of field to the point we are interested in, is called potential.The way we define potential difference is this:
The electrostatic force is a conservative force. So work done is independent of path followed and only depends on initial and final points.The way we define potential is this :The work done in bringing a unit positive charge from a region where there is no effect of field to the point we are interested in, is called potential.The way we define potential difference is this:The potential difference between 2 points A and B is the work done in moving the unit positive charge from A to B, irrespective of path.
The electrostatic force is a conservative force. So work done is independent of path followed and only depends on initial and final points.The way we define potential is this :The work done in bringing a unit positive charge from a region where there is no effect of field to the point we are interested in, is called potential.The way we define potential difference is this:The potential difference between 2 points A and B is the work done in moving the unit positive charge from A to B, irrespective of path.So work done to move a unit (which means a value 1 with proper units, like 1 Coulomb) charge will be equal to potential difference. Potential difference is simply the difference in potentials.
The electrostatic force is a conservative force. So work done is independent of path followed and only depends on initial and final points.The way we define potential is this :The work done in bringing a unit positive charge from a region where there is no effect of field to the point we are interested in, is called potential.The way we define potential difference is this:The potential difference between 2 points A and B is the work done in moving the unit positive charge from A to B, irrespective of path.So work done to move a unit (which means a value 1 with proper units, like 1 Coulomb) charge will be equal to potential difference. Potential difference is simply the difference in potentials.So, in above case potential difference between A and B is = 30 - 20 = 10 Volts
The electrostatic force is a conservative force. So work done is independent of path followed and only depends on initial and final points.The way we define potential is this :The work done in bringing a unit positive charge from a region where there is no effect of field to the point we are interested in, is called potential.The way we define potential difference is this:The potential difference between 2 points A and B is the work done in moving the unit positive charge from A to B, irrespective of path.So work done to move a unit (which means a value 1 with proper units, like 1 Coulomb) charge will be equal to potential difference. Potential difference is simply the difference in potentials.So, in above case potential difference between A and B is = 30 - 20 = 10 VoltsThat’s equal to work done for a unit charge. But we want for 0.02 Coulomb. So just multiply 0.02 with 10.