What Will Be The Amount Of Work Done To Carry 4c Of Charge From A Point At 100 V To A Point 120?

calculate the amount of work done to carry 4c of charge from a point of 100v to a point at 120v. Work done =q(dV) where dV=change in potential and q is charge here q=4c and dV=120V-100V=20V then work done

=4

(20)=80J.

What is the amount of work done to carry 4C of charge from a point at 100v to a point at 120v?

Calculate the amount of work done to carry 4 C of charge from a point at 100 V to a point at 120 V. If W is the amount of work done, then

W=Q×V=(4C)(20V)=80J

.

What is the work done in moving a charge of 4C?

So, the work done in moving a charge of 4 coulombs from a point at 220 volts to another point at 230 volts is

40 Joule

.

How much work is done in moving a charge of 3 Coulomb from a point at 118 Volt to a point at 128 Volt?

Work done =

30 joules

.

How much work will be done in bringing a charge of 2 * 10 3 Coulomb from infinity to a point P at which the potential is 5v?

∴ Amount of work done in bring a charge Q to point P from the Infinity is

10−2J

. Hope it helps.

What is the work done equation?

Scientifically Work done formula will be given as,

W = F * d

: In this case, the force exerting on the block is constant, but the direction of force and direction of displacement influenced by this force is different.

How much work is done in moving a charge of 2c?

Hence, the work done in moving a charge of 2c across the two points having a potential difference is 12V is

24J

.

What is the work done in moving a charge of 4c from one point to another point having potential difference?

Work done = Potential difference × Charge

∴ Work done by body =

56 Joule

.

What is the amount of work done in moving a 200?

Thus, work done would be

zero

.

What is the relation between electric field and potential?

The relationship between potential and field (E) is a differential: electric field is

the gradient of potential (V) in the x direction

. This can be represented as: Ex=−dVdx E x = − dV dx . Thus, as the test charge is moved in the x direction, the rate of the its change in potential is the value of the electric field.

How much energy is given to each Coulomb?

The energy given to each coulomb of charge is equal to the amount of work which is done in moving it. =

6 Joule

.

How much work is done in moving a charge of 3c from a point of 128 V to a point of 138 V?

=

30 Joule

. HOPE IT HELPED YOU!!

How much work is done in moving a charge of?

work is done in moving a charge of

2 coulomb across two points having a potential difference of 12 volt

. Therefore the work is done in moving a charge of 2 coulomb across two points having a potential difference of 12 volt is 24 joule .

How much work will be done in bringing a charge of 5.0 columns from infinity to a point P at which the potential is 12 volt?

hence, the work done to move the charge from infinity to point p will be

0.06 j

.

What is mC to C?

What is the potential difference between two points?

Potential difference is

the difference in the amount of energy that charge carriers have between two points

in a circuit. **Measured in Volts: **Potential difference (p.d.) is measured in volts (V) and is also called voltage.