Payal Priya
Birsa Institute of Technology (BIT), Sindri
Payal Priya has created this Calculator and 400+ more calculators!
Saiju Shah
Jayawant Shikshan Prasarak Mandal (JSPM), Pune
Saiju Shah has verified this Calculator and 1000+ more calculators!

11 Other formulas that you can solve using the same Inputs

Calorie Burn Rate
Calorie Burn Rate=(Weight*Sleeping*Time)+(Weight*Watching TV*Time)+(Weight*Typing Writing Desk Work*Time)+(Weight*Walking Very Slow 1.7 Mph)+(Weight*Walking 2.5 mph*Time)+(Weight*Bicycling Very Slow 50 Watts*Time)+(Weight*Walking 3 Mph*Time)+(Weight*Calisthenics Home Exercises*Time)+(Weight*Walking 3.4 Mph*Time)+(Weight*Bicycling Stationary*Time)+(Weight*Jogging *Time)+(Weight*Heavy Calisthenics*Time)+(Weight*Running Jogging In Place*Time)+(Weight*Rope Jumping*Time) Go
Heart Rate Based Calorie Burn For Male
Heart Rate Based Calorie Burn For Male=((-55.0969+(0.6309*Heart Rate)+(0.1988*Weight)+(0.2017*Age))/4.184)*60*Time 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 Energy when an electric potential difference, time taken, and resistance through a conductor is given
Heat Rate=Electric Potential Difference^2*Time Taken to Travel/Resistance Go
Electromotive force when battery is discharging
Voltage=(Electromotive Force)-(Electric Current*Resistance) Go
Electromotive force when battery is charging
Voltage=(Electromotive Force)+(Electric Current*Resistance) Go
Power when electric potential difference and electric current are given
Power=Electric Potential Difference*Electric Current Go
Current Density when Electric Current and Area is Given
Current Density=Electric Current/Area of Conductor Go
Power, when electric potential difference and resistance are given,
Power=Electric Potential Difference^2/Resistance 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 Energy when an electric potential difference, time taken, and resistance through a conductor is given
Heat Rate=Electric Potential Difference^2*Time Taken to Travel/Resistance Go
Heat Rate
Heat Rate=Steam Flow*Specific Heat Capacity*Temperature Difference Go

Heat generated through resistance Formula

Heat Rate=Electric Current^2*Resistance*Time
Q=i^2*R*t
More formulas
Electric Current when Charge and Time are Given Go
Electric Field Go
Ohm's Law Go
Resistance Go
Power when electric potential difference and electric current are given Go
Power, when electric current and resistance are given Go
Power, when electric potential difference and resistance are given, Go
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
Heat Energy when an electric potential difference, the electric current and time taken Go
Heat Energy when an electric potential difference, time taken, and resistance through a conductor is given Go
Electromotive force when battery is discharging Go
Electromotive force when battery is charging Go
Equivalent resistance in series Go
Equivalent resistance in parallel Go
Shunt in ammeter Go
Potential difference through voltmeter Go
Internal resistance using potentiometer Go
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= I^2Rt. Its formula in calorie is H= I^2Rt/ 4.2 calorie. Where H is the heat generated calculated in joules, I is the current measured in amperes, R is the resistance measured in ohms and t is the time taken measured in seconds.

How to Calculate Heat generated through resistance?

Heat generated through resistance calculator uses Heat Rate=Electric Current^2*Resistance*Time to calculate the Heat Rate, Heat generated through resistance 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 generated through resistance using this online calculator? To use this online calculator for Heat generated through resistance, enter Electric Current (i), Resistance (R) and Time (t) and hit the calculate button. Here is how the Heat generated through resistance calculation can be explained with given input values -> 57600 = 20^2*10*14399.9999999988.

FAQ

What is Heat generated through resistance?
Heat generated through resistance 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=i^2*R*t or Heat Rate=Electric Current^2*Resistance*Time. Electric Current is the time rate of flow of charge through a cross sectional area, Resistance is a measure of the opposition to current flow in an electrical circuit. Its S.I unit is ohm and Time can be defined as the ongoing and continuous sequence of events that occur in succession, from the past through the present to the future.
How to calculate Heat generated through resistance?
Heat generated through resistance 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 Current^2*Resistance*Time. To calculate Heat generated through resistance, you need Electric Current (i), Resistance (R) and Time (t). With our tool, you need to enter the respective value for Electric Current, Resistance and Time 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 Current, Resistance and Time. 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 Potential Difference*Electric Current*Time Taken to Travel
  • Heat Rate=Electric Potential Difference^2*Time Taken to Travel/Resistance
  • 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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