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# Difference between Voltage Drop and Potential Difference

Voltage Drop is defined as the decrease in the electric potential along the path of current that is flowing in an electric circuit. Voltage drop can be assigned at each point in the electric circuit that is proportional to the electrical elevation. The amount of energy delivered per second to any component in the circuit is equal to the voltage drop from each point of the component’s terminal. It can be measured across the circuit using a voltmeter.

Formula of Voltage Drop

V = IR

where,

V = voltage

I = current in amperes (A)

R = Resistance in ohms (Ω)

Potential Difference is defined as the difference between two points in an electric circuit. In other words, it is the arithmetical difference between a higher voltage and a lower voltage. It is the amount of work done in moving a unit charge from one point to another point. It can be measured across the circuit using a voltmeter. Potential Differences between two points in an electric circuit can be known with help of a cell or battery.

Formula of Potential Difference

V = W/Q

Where,

W = Work done in (Joules)

Q = Charge in (Coulombs)

1 Volt = 1 Joule/1 Coulomb.

One volt is the potential difference between two points in an electric circuit carrying current when 1 Joule of work is done to move a 1Coulomb of charge from one point to another point.

Difference between Voltage Drop and Potential Difference

### Sample Questions

Question 1: A current of 6 A flies through a circuit that carries a resistance of 10 Ω. Find the voltage drop across the circuit?

Given that,

I = 6 A.

R = 10 Ω.

Formula, V = IR

V = 6 × 10

V = 60 V

Therefore, voltage required for the circuit is 60 V.

Question 2: The bulbs of 30 Ω and 20Ω are connected in series and a current of 8A is flowing through the circuit. Find the voltage drop across the circuit.

Given that R = 30 + 20 = 50Ω .

I = 8A

Formula, V = IR

V = 8 × 50 = 400 V

Therefore, voltage required for the circuit is 400 V.

Question 3: What is the device that is used to maintain a potential difference across a conductor.

The device that is used to maintain the potential difference across the conductor is a cell or a battery.

Question 4: How much energy is consumed for 2coulombs of charge passing through a 10v battery.

Given that, Q = 2C

V = 10V

Formula, V = W/Q

10 = W/2

W = 10 × 2 = 20 J

Therefore, the energy required is 20 J.

Question 5: On moving a charge of 25 coulombs, 5 J of work is done. Then calculate the potential difference between the two points.

Given that,

Q = 25 C

W = 5 J

Formula, V = W/Q

V = 25/5 = 5

Therefore, the potential difference required is 5 V.

Question 6: Calculate the work done to move a charge of 6C between two points A and B if the points have a potential difference of 4 V.

Given that.

Q = 6 C

V = 4 V

Formula, V = W/Q

4 = W/6

⇒W = 4 × 6 = 24J

Therefore, the work required to move the charge is 24J.

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