The calculations to calculate the value of energy E in kilowatt-hours (kWh) is apparently equal to the value of power P in kilowatts (kW), multiplied by the time period t in hours (hr):

E_{(kWh)} = P_{(kW)} × t_{(hr)}

Learn to convert kilowatts to kilowatts-hour

You all are required to convert the value of electric power in kilowatts (kW) to energy measured in kilowatt-hour (kWh).

You can easily calculate the value of kilowatt-hour from kilowatts and hours, but the point that is to be noted you can’t convert kilowatt to kilowatt-hour, as these two represent two very different quantities.

Formula for Kilowatts to kilowatt-hour calculation

The value of energy E in kilowatt-hour (kWh) is apparently equal to the value of power P in kilowatts (kW), multiplied by the time period t measured in hours (hr).

E_{(kWh)} = P_{(kW)} × t_{(hr)}

So the value can be calculated,

kilowatt-hour = kilowatt × hour

or, the value can be found,

kWh = kW × hr

For Instance,

What if you need to calculate the value of energy consumption in watt-hour when the power consumption is 4 kilowatts for the time duration of 2 hours?

The value of complex power S in volt-amps (VA) is apparently equal to the voltage V measured in volts (V) multiplied by the value of current I measured in amps (A).

The value of real power P measured in watts (W) is apparently equal to the value of voltage V measured in volts (V) multiplied by the value of current I in amps (A) multiplied by the power factor (cos φ).

P_{(W)} = V_{(V)} × I_{(A)} × cos φ

The value of reactive power Q measured in volt-amps reactive (VAR) is apparently equal to the value of voltage V in volts (V) multiplied by the current I in amps (A) time the value of sine of the complex power phase angle (φ):

Q_{(VAR)} = V_{(V)} × I_{(A)} × sin φ

The value of power factor (FP) is apparently equal to the absolute value of cosine with the complex power phase angle (φ):

PF = |cos φ|

DC power calculator

All you need is to enter 2 values to obtain other values then hit the = button.

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DC power calculation

You can easily make the Voltage (V) calculation with the help of the values of current (I) and resistance (R).

V_{(V)} = I_{(A)} × R_{(Ω)}

The value of Complex power (S) calculation can be obtained from the value of voltage (V) and current (I).

All you need is to enter the 2 values to find the other values and finally hit the = button.

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Energy & power calculation

The value of average power P measured in watts (W) is apparently equal to the value of energy consumed E measured in joules (J) is divided by time period Δt measuredin seconds (s).

We are offering Illuminance in footcandles (fc) to lux (lx) conversion calculator to help you in the conversion process. all you need to do is to enter the illuminance in footcandles (fc) and press the = button to get the illuminance in lux (lx):

Lux to footcandles conversion formula

The illuminance E_{v} measured in lux (lx) is apparently equal to the vlaue of illuminance E_{v} in footcandles (fc), and totally divided by 0.09290304.

We are offering the Power in watts (W) to energy in kilowatt-hours (kWh) calculator to help you find the values easily.

All you need is to enter the values of power in watts, and consumption of time period in hours and finally hit the = button.

Watts to kWh calculation

The value of energy E measured in kilowatt-hours (kWh) is apparently equal to the value of power P in watts (W), multiplied by the time period t measured in hours (hr) which is divided by 1000.

We are offering the value of Watts (W) to joules (J) calculator, you can simply enter the value of power in watts, and value of time in seconds then hit the = button.

Watts to joules calculation

The value of energy E in joules (J) is apparently equal to the value of power P in watts (W), multiplied by the time period t measured in seconds (s).

We are offering the electric power in watts (W) to electric current in amps (A) calculator, you can simply make calculations. Enter the value of current type, enter power in watts, voltage in volts, power factor for AC circuit and press the = button which can be called as DC = Direct Current and the AC = Alternating Current.

DC watts to amps calculation

The value of current I measured in amps (A) is apparently equal to the value of power P in watts (W), which is divided by the value of voltage V in volts (V).

I_{(A)} = P_{(W)} / V_{(V)}

AC single phase watts to amps calculation

The value of phase current I in amps (A) is apparently equal to the value of power P in watts (W), which is divided by the value of power factor PF multiplied by the RMS voltage V measured in volts (V).

I_{(A)} = P_{(W)} / (PF × V_{(V)})

The value of power factor of the resistive impedance load is apparently equal to 1.

AC three phase watts to amps calculation

Calculation with line to line voltage

The value of phase current I in amps (A) is apparently equal to the value of power P in watts (W), which is divided by square root of 3 multiplied by the power factor PF times the value of line to line RMS voltage V_{L-L} measured in volts (V).

I_{(A)} = P_{(W)} / (√3 × PF × V_{L-L(V)} )

The value of power factor of the resistive impedance load is apparently equal to 1.

Calculation with line to neutral voltage

The value of phase current I in amps (A) is apparently equal to the power P in watts (W), which is divided by 3 multiplied by the power factor PF times the value of line to neutral RMS voltage V_{L-N} measured in volts (V).

I_{(A)} = P_{(W)} / (3 × PF × V_{L-N(V)} )

The value of power factor of the resistive impedance load is apparently equal to 1.

Typical power factor values

You are not required not to use the typical power factor values for the accurate calculations.

We are offering the Watts (W) – volts (V) – amps (A) – ohms (Ω) calculator, it can you to calculate.

We can easily calculate the power / current / voltage / resistance. You can simply enter the 2 values to obtain values and hit the = button.

Ohms calculations

The value of resistance R measured in ohms (Ω) is apparently equal to the value of voltage V in volts (V) which is divided by the value of current I in amps (A).

The value of resistance R measured in ohms (Ω) is apparently equal to the squared voltage V in volts (V) which is divided by the value of power P in watts (W).

The value of resistance R in ohms (Ω) is apparently equal to the value of power P in watts (W) which is divided by the squared current I in amps (A).

Amps calculations

The value of current I in amps (A) is apparently equal to the value of voltage V in volts (V) which is divided by the resistance R measured in ohms (Ω).

The value of current I in amps (A) is apparently equal to the power P in watts (W) which is divided by the value of voltage V in volts (V).

The value of current I in amps (A) is apparently equal to the square root of the power P in watts (W) which is divided by the value of resistance R in ohms (Ω).

Volts calculations

The value of voltage V in volts (V) is apparently equal to the value of current I in amps (A) multiplied by the resistance R in ohms (Ω).

The value of voltage V in volts (V) is apparently equal to the power P in watts (W) which is divided by the current I measured in amps (A).

The value of voltage V in volts (V) is apparently equal to the value of square root of the power P measured in watts (W) multiplied by the resistance R in ohms (Ω).

Watts calculation

The value of power P in watts (W) is apparently equal to the value of voltage V in volts (V) multiplied by the current I in amps (A).

The value of power P in watts (W) is apparently equal to the squared voltage V in volts (V) which is divided by the resistance R measured in ohms (Ω).

The value of power P in watts (W) is apparently equal to the value of squared current I measured in amps (A) multiplied by the resistance R in ohms (Ω).

We are offering the Electrical voltage in volts (V) to energy measured in electron-volts (eV) calculator, can easily help you in calculations.

All you simply need is to enter the voltage in volts, charge in the elementary charge or the coulombs and hit the = button.

Volts to eV calculation with elementary charge

The value of energy E measured in electron-volts (eV) is apparently equal to the value of voltage V in volts (V), multiplied by the electric charge Q in elementary charge or the proton or the electron charge (e).

E_{(eV)} = V_{(V)} × Q_{(e)}

The value of elementary charge is value of electric charge with 1 electron with the e symbol.

Volts to eV calculation with coulombs

The value of energy E in electron-volts (eV) is apparently equal to the voltage V in volts (V), multiplied by the electrical charge Q measured in coulombs (C) which is divided by 1.602176565×10^{-19}:

You can simply convert the electrical voltage measured in volts (V) to energy measured in electron-volts (eV).

You can simply calculate the value of electron-volts from volts and elementary charge or coulombs, but it is to be noted that you can convert volts to electron-volts since volt and the electron-volt units with different quantities.

Volts to eV calculation with elementary charge

The value of energy E measured in electron-volts (eV) is apparently equal to the value of voltage V in volts (V), multiplied by the electric chargeQ in elementary charge or proton the electron charge (e).

E_{(eV)} = V_{(V)} × Q_{(e)}

The value of elementary charge is the electric charge of 1 electron with the e symbol.

So the value can be called as,

electronvolt = volt × elementary charge

or

eV = V × e

For Example,

Find the value of energy in electron-volts that is consumed in an electrical circuit with the voltage supply of 10 volts and charge flow of 30 electron charges?

E = 10V × 30e = 300eV

Volts to eV calculation with coulombs

The value of energy E in electron-volts (eV) is apparently equal to the value of voltage V in volts (V), multiplied by the electrical charge Q in coulombs (C) which is divided by 1.602176565×10^{-19}:

electronvolt = volt × coulomb / 1.602176565×10^{-19}

or the value can be called as,

eV = V × C / 1.602176565×10^{-19}

For Example,

Find the value of energy in electron-volts that is consumed in an electrical circuit with the value of voltage supply of 10 volts with the charge flow of 3 coulombs?

We are offering the Volts (V) to joules (J) calculator, to help you with calculations.

All you need is to enter the charge in coulombs, the voltage in volts, and hit the = button.

Volts to joules calculation

The value of energy E measured in joules (J) is apparently equal to the value of voltage V measured in volts (V), multiplied by the electrical charge Q measured in coulombs (C).

E_{(J)} = V_{(V)} × Q_{(C)}

Learn to convert volts to joules

You can simply convert the electrical voltage measured in volts (V) to the energy in joules (J).

You can simply calculate joules from volts and coulombs, but you can simply convert the volts to joules since the value of volt and joule units which represent the different quantities.

Formula for Volts to joules calculation

The value of energy E measured in joules (J) is apparently equal to the voltage V in volts (V), multiplied by the electrical charge Q measured in coulombs (C).

E_{(J)} = V_{(V)} × Q_{(C)}

So, the value can be found as,

joule = volt × coulomb

it can be said as,

J = V × C

For Example,

Find the value of energy in joules can be consumed in an electrical circuit with the value of voltage supply of 14 V and the value of charge flow of 2 coulombs?

We are offering the Volts (V) to kilowatts (kW) calculator, to make your calculations easy.

All you need is to enter the value current in amps, the value of voltage in volts, and hit the = button to get the power in watts.

DC volts to kilowatts calculation formula

The value of power P measured in kilowatts (kW) is apparently equal to the value of voltage V in volts (V), multiplied by the value of current I in amps (A) and finally divided by 1000.

P_{(kW)} = V_{(V)} × I_{(A)} / 1000

AC single phase volts to kilowatts calculation formula

The value of power P in kilowatts (kW) is equal to the power factor PF times the current I in amps (A), times the voltage V in volts (V) divided by 1000:

P_{(kW)} = PF × I_{(A)} × V_{(V)} / 1000

AC three phase volts to kilowatts calculation formula

The value of power P in kilowatts (kW) is apparently equal to the value of square root of 3 multiplied by the power factor PF times the value of current I measured in amps (A), multiplied by the line to line RMS voltage V_{L-L} measured in volts (V) which is later divided by 1000.

P_{(kW)} = √3 × PF × I_{(A)} × V_{L-L(V)} / 1000

= 1.732 × PF × I_{(A)} × V_{L-L(V)} / 1000

Learn to convert volts to kilowatts

Simply convert the value of electrical voltage in volts (V) to electric power measured in kilowatts (kW).

You can easily calculate the values in kilowatts from volts and amps, but it is to be kept in mind that you can convert volts to kilowatts as they are not the same quantity.

DC volts to kilowatts calculation formula

The value of power P measured in kilowatts (kw) is apparently equal to the value of voltage V measured in volts (V), multiplied by the current I in amps (A) which is divided by 1000.

P_{(kW)} = V_{(V)} × I_{(A)} / 1000

So, the value in kilowatts are equal to value in volts multiplied by the value in amps which is divided by 1000.

kilowatts = volts × amps / 1000

or, it can be said,

kW = V × A / 1000

For Example,

Find the value of power consumption in kilowatts if the current is 2A and the value of voltage supply is 14V?

P = 14V × 2A / 1000

0.028 kW

AC single phase volts to kilowatts calculation formula

The value of real power P measured in kilowatts (kW) is apparently equal to the value of power factor PF multiplied by the phase current I measured in amps (A), which is multiplied by the RMS voltage V measured in volts (V).

P_{(kW)} = PF × I_{(A)} × V_{(V)} / 1000

So the kilowatts are equal to the power factor multiplied by the amps times the volts.

kilowatt = PF ×amp × volt / 1000

or it can be said,

kW = PF ×A × V / 1000

For Example,

What is the value of power consumption measured in kilowatts when the value of power factor is 0.4 and the value of phase current is 2A and the RMS voltage supply is 100V?

P = 0.4 × 2A × 100V / 1000

= 0.2 kW

Formula for AC three phase volts to kilowatts calculation

The value of real power P measured in kilowatts (kW) is apparently equal to square root of 3 multiplied by the power factor PF multiplied by the phase current I measured in amps (A), multiplied by the line to line RMS voltage V_{L-L} in volts (V) which is divided by 1000.

P_{(kW)} = √3 × PF × I_{(A)} × V_{L-L(V)} / 1000

≈ 1.732 × PF × I_{(A)} × V_{L-L(V)} / 1000

So, the value of kilowatts are apparently equal to square root of 3 times power factor PF multiplied by the amps times volts which is divided by 1000.

kilowatt = √3 × PF ×amp × volt / 1000

or it can be said,

kW = √3 × PF ×A × V / 1000

For Example,

Find the value of power consumption in kilowatts when the value of power factor is 0.6 and the value of phase current is 4A and the voltage supply is 120V?