Heat Energy when an electric potential difference, time taken, and resistance through a conductor is given Calculator

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Physics	Current Electricity ↺
Current-Electricity

✖Electric potential difference, also known as voltage, is the external work needed to bring a charge from one location to another location in an electric field.ⓘ Electric Potential Difference [V]			+10% -10%
✖Time Taken to Travel is the total time taken by an object to reach its destination.ⓘ Time Taken to Travel [t]			+10% -10%
✖Resistance is a measure of the opposition to current flow in an electrical circuit. Its S.I unit is ohm.ⓘ Resistance [R]			+10% -10%

✖Heat rate is the amount of energy required by an electrical generator or a power plant to produce a one-kilowatt hour of electricity.ⓘ Heat Energy when an electric potential difference, time taken, and resistance through a conductor is given [Q]

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Birsa Institute of Technology (BIT), Sindri

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Jayawant Shikshan Prasarak Mandal (JSPM), Pune

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< 11 Other formulas that you can solve using the same Inputs

Angular Displacement if initial angular velocity, angular acceleration and time are given

Angular Displacement=(Angular Velocity*Time Taken to Travel)+((Angular Acceleration*(Time Taken to Travel)^2)/2) Go

Displacement of Body when initial velocity, time and acceleration are given

Displacement of Body=(Initial Velocity*Time Taken to Travel)+(Acceleration*(Time Taken to Travel)^2)/2 Go

Angular Displacement if initial angular velocity, final angular velocity and time are given

Angular Displacement=((Angular Velocity+Final Angular Velocity)*Time Taken to Travel)/2 Go

Final Angular Velocity if initial angular velocity, angular acceleration and time is given

Final Angular Velocity=Angular Velocity+(Angular Acceleration*Time Taken to Travel) Go

Displacement of Body when initial velocity, final velocity and time are given

Displacement of Body=((Initial Velocity+Final Velocity)*Time Taken to Travel)/2 Go

Final Velocity of body

Final Velocity=Initial Velocity+Acceleration*(Time Taken to Travel) Go

Electric Field

Electric Field=Electric Potential Difference/Length of Conductor Go

Power when electric potential difference and electric current are given

Power=Electric Potential Difference*Electric Current Go

Running Pace

Running Pace=Distance Traveled/Time Taken to Travel Go

Power, when electric current and resistance are given

Power=(Electric Current)^2*Resistance Go

Ohm's Law

Voltage=Electric Current*Resistance Go

< 5 Other formulas that calculate the same Output

Heat Transfer Through Plane Wall or Surface

Heat Rate=-Thermal Conductivity*Original cross sectional area*(Outside Temperature-Inside Temperature)/Width Go

Heat Transfer According to Fourier's Law

Heat Rate=-(conductivity*Area Perpendicular to Heat Flow*(Temperature Difference/Thickness of Solid Body)) Go

Heat Energy when an electric potential difference, the electric current and time taken

Heat Rate=Electric Potential Difference*Electric Current*Time Taken to Travel Go

Heat Rate

Heat Rate=Steam Flow*Specific Heat Capacity*Temperature Difference Go

Heat generated through resistance

Heat Rate=Electric Current^2*Resistance*Time Go

Heat Energy when an electric potential difference, time taken, and resistance through a conductor is given Formula

Heat Rate=Electric Potential Difference^2*Time Taken to Travel/Resistance
Q=V^2*t/R

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Current Density when Electric Current and Area is Given Go

Electric Current when Drift Velocity is Given Go

Current Density when Resistivity is Given Go

Resistivity Go

Resistance on stretching of wire Go

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Heat Energy when an electric potential difference, the electric current and time taken Go

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Metre Bridge Go

Drift Speed when Cross-Sectional Area is Given Go

Drift Speed Go

Resistance of a Wire Go

Temperature Dependence of Resistance Go

How is heat generated through resistance and how it is calculated ?

When a current is passed through resistor energy is wasted in overcoming the resistance of the wire. The energy is converted into heat. Its formula is H = V² t / R Where H is the heat energy measured in joules, V is the electric potential difference measured in volts and t is the time taken measured in seconds.

How to Calculate Heat Energy when an electric potential difference, time taken, and resistance through a conductor is given?

Heat Energy when an electric potential difference, time taken, and resistance through a conductor is given calculator uses Heat Rate=Electric Potential Difference^2*Time Taken to Travel/Resistance to calculate the Heat Rate, Heat Energy when an electric potential difference, time taken, and resistance through a conductor is given is the amount of heat generated when a current of I ampere flows through a resistance R ohm for time t seconds. Heat Rate and is denoted by Q symbol.

How to calculate Heat Energy when an electric potential difference, time taken, and resistance through a conductor is given using this online calculator? To use this online calculator for Heat Energy when an electric potential difference, time taken, and resistance through a conductor is given, enter Electric Potential Difference (V), Time Taken to Travel (t) and Resistance (R) and hit the calculate button. Here is how the Heat Energy when an electric potential difference, time taken, and resistance through a conductor is given calculation can be explained with given input values -> 0.162 = 18^2*5/10.

FAQ

What is Heat Energy when an electric potential difference, time taken, and resistance through a conductor is given?

Heat Energy when an electric potential difference, time taken, and resistance through a conductor is given is the amount of heat generated when a current of I ampere flows through a resistance R ohm for time t seconds and is represented as Q=V^2*t/R or Heat Rate=Electric Potential Difference^2*Time Taken to Travel/Resistance. Electric potential difference, also known as voltage, is the external work needed to bring a charge from one location to another location in an electric field, Time Taken to Travel is the total time taken by an object to reach its destination and Resistance is a measure of the opposition to current flow in an electrical circuit. Its S.I unit is ohm.

How to calculate Heat Energy when an electric potential difference, time taken, and resistance through a conductor is given?

Heat Energy when an electric potential difference, time taken, and resistance through a conductor is given is the amount of heat generated when a current of I ampere flows through a resistance R ohm for time t seconds is calculated using Heat Rate=Electric Potential Difference^2*Time Taken to Travel/Resistance. To calculate Heat Energy when an electric potential difference, time taken, and resistance through a conductor is given, you need Electric Potential Difference (V), Time Taken to Travel (t) and Resistance (R). With our tool, you need to enter the respective value for Electric Potential Difference, Time Taken to Travel and Resistance and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

How many ways are there to calculate Heat Rate?

In this formula, Heat Rate uses Electric Potential Difference, Time Taken to Travel and Resistance. We can use 5 other way(s) to calculate the same, which is/are as follows -

Heat Rate=Steam Flow*Specific Heat Capacity*Temperature Difference
Heat Rate=Electric Current^2*Resistance*Time
Heat Rate=Electric Potential Difference*Electric Current*Time Taken to Travel
Heat Rate=-Thermal Conductivity*Original cross sectional area*(Outside Temperature-Inside Temperature)/Width
Heat Rate=-(conductivity*Area Perpendicular to Heat Flow*(Temperature Difference/Thickness of Solid Body))

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