Question

How much energy is given in each coulomb of
charge passing through a 10 V battery.​

Answer 1

Answer:

We need to find the energy given to each coulomb of charge passing through a 6 V battery

Solution

Principle of conservation of energy

Principle of conservation of energyFrom the principle of conservation of energy, we know that the work done by the system is equal to the energy supplied to that system.

Principle of conservation of energyFrom the principle of conservation of energy, we know that the work done by the system is equal to the energy supplied to that system.The energy given to each coulomb of charge is equal to the amount of work required to move it.

Principle of conservation of energyFrom the principle of conservation of energy, we know that the work done by the system is equal to the energy supplied to that system.The energy given to each coulomb of charge is equal to the amount of work required to move it.Formula

Principle of conservation of energyFrom the principle of conservation of energy, we know that the work done by the system is equal to the energy supplied to that system.The energy given to each coulomb of charge is equal to the amount of work required to move it.FormulaPotential difference (V)= Work done (W) / Charge (q)

Principle of conservation of energyFrom the principle of conservation of energy, we know that the work done by the system is equal to the energy supplied to that system.The energy given to each coulomb of charge is equal to the amount of work required to move it.FormulaPotential difference (V)= Work done (W) / Charge (q)On rearranging the above formula we get

Principle of conservation of energyFrom the principle of conservation of energy, we know that the work done by the system is equal to the energy supplied to that system.The energy given to each coulomb of charge is equal to the amount of work required to move it.FormulaPotential difference (V)= Work done (W) / Charge (q)On rearranging the above formula we getWork done (W) = Potential difference X Charge

Principle of conservation of energyFrom the principle of conservation of energy, we know that the work done by the system is equal to the energy supplied to that system.The energy given to each coulomb of charge is equal to the amount of work required to move it.FormulaPotential difference (V)= Work done (W) / Charge (q)On rearranging the above formula we getWork done (W) = Potential difference X ChargePut the value of V and q in the above equation, we get

Principle of conservation of energyFrom the principle of conservation of energy, we know that the work done by the system is equal to the energy supplied to that system.The energy given to each coulomb of charge is equal to the amount of work required to move it.FormulaPotential difference (V)= Work done (W) / Charge (q)On rearranging the above formula we getWork done (W) = Potential difference X ChargePut the value of V and q in the above equation, we getWork done (w) = 6 X 1

Principle of conservation of energyFrom the principle of conservation of energy, we know that the work done by the system is equal to the energy supplied to that system.The energy given to each coulomb of charge is equal to the amount of work required to move it.FormulaPotential difference (V)= Work done (W) / Charge (q)On rearranging the above formula we getWork done (W) = Potential difference X ChargePut the value of V and q in the above equation, we getWork done (w) = 6 X 1Work done = 6 Joules

Therefore, the energy is given to each coulomb of charge passing through a 6 v battery is 6 J.

Explanation:

Hope it helps you

Answer 2

Answer:

the energy given to each coulomb of charge is equal to the amount of work which is done in moving . Now we know that potential difference = work done / charge , work done = potential difference × charge where, charge = 1 c and potential difference = 6 v , work done = 6 × 1 = 6 joule.

I hope it can helps you