Akshada Kulkarni
National Institute of Information Technology (NIIT), Neemrana
Akshada Kulkarni has created this Calculator and 400+ more calculators!
Pragati Jaju
College Of Engineering (COEP), Pune
Pragati Jaju has verified this Calculator and 200+ more calculators!

3 Other formulas that you can solve using the same Inputs

Threshold energy when energy of photon is given
Threshold energy=Energy of photon-Kinetic Energy GO
Energy of photon in photo-electric effect
Energy of photon=Threshold energy+Kinetic Energy GO
Threshold frequency when threshold energy is given
Threshold frequency=Threshold energy/[hP] GO

11 Other formulas that calculate the same Output

Kinetic energy possessed by the element
Kinetic Energy=(Total mass moment of inertia *((Angular velocity of free end*Distance b/w small element and fixed end)^2)*Length of small element)/(2*(Length of the constraint^3)) GO
Total Kinetic Energy of the geared system
Kinetic Energy=(Equivalent Mass Moment of Inertia of geared system with shaft A and shaft B*(Angular Acceleration of Shaft A)^2)/2 GO
Kinetic energy of system
Kinetic Energy=((Mass 1*(velocity of particle with mass m1^2))+(Mass 2*(velocity of particle with mass m2^2)))/2 GO
Kinetic energy when angular velocity is given
Kinetic Energy=((Mass 1*(Radius of mass 1^2))+(Mass 2*(Radius of mass 2^2)))*(Angular Velocity^2)/2 GO
Total kinetic energy of the constraint for transverse vibrations
Kinetic Energy=(33*Total mass of the constraint*(Transverse velocity of the free end^2))/280 GO
Total kinetic energy possessed by the constraint for longitudinal vibration
Kinetic Energy=(Total mass of the constraint*(Longitudinal velocity of the free end^2))/6 GO
Total kinetic energy of the constraint
Kinetic Energy=(Total mass moment of inertia *(Angular velocity of free end^2))/6 GO
Kinetic energy of electron when atomic number is given
Kinetic Energy=(Atomic number*([Charge-e]^2))/(2*Radius of orbit) GO
Kinetic energy of photoelectrons
Kinetic Energy=[hP]*(Frequency of photon-Threshold frequency) GO
Kinetic energy in terms of inertia and angular velocity
Kinetic Energy=Moment of Inertia*(Angular Velocity^2)/2 GO
Kinetic Energy
Kinetic Energy=(Mass*Velocity^2)/2 GO

Kinetic energy of photoelectrons when threshold energy is given Formula

Kinetic Energy=Energy of photon-Threshold energy
KE=E-W
More formulas
Threshold energy GO
Intensity of light in photo-electric effect GO
Kinetic energy of photoelectrons GO
Energy of photon in photo-electric effect GO
Threshold energy when energy of photon is given GO
Threshold frequency when threshold energy is given GO

What is Photo-electric effect?

The phenomenon of ejection of electrons from the surface of the metal when the light of suitable frequency strikes is called a photo-electric effect. The electrons ejected are called photoelectrons. The minimum frequency required to eject the electrons is called threshold frequency. A part of the energy of a photon is used to escape the electron from the attractive forces and the remaining energy is used in increasing the kinetic energy of an electron.

How to Calculate Kinetic energy of photoelectrons when threshold energy is given?

Kinetic energy of photoelectrons when threshold energy is given calculator uses Kinetic Energy=Energy of photon-Threshold energy to calculate the Kinetic Energy, The Kinetic energy of photoelectrons when threshold energy is given is defined as kinetic energy consumed by a moving particle when it moves from one point to another. Kinetic Energy and is denoted by KE symbol.

How to calculate Kinetic energy of photoelectrons when threshold energy is given using this online calculator? To use this online calculator for Kinetic energy of photoelectrons when threshold energy is given, enter Energy of photon (E) and Threshold energy (W) and hit the calculate button. Here is how the Kinetic energy of photoelectrons when threshold energy is given calculation can be explained with given input values -> 5000 = 6000-1000.

FAQ

What is Kinetic energy of photoelectrons when threshold energy is given?
The Kinetic energy of photoelectrons when threshold energy is given is defined as kinetic energy consumed by a moving particle when it moves from one point to another and is represented as KE=E-W or Kinetic Energy=Energy of photon-Threshold energy. Energy of photon is the energy carried by a single photon. It is denoted by E and Threshold energy or work function of a particle is the minimum kinetic energy a pair of traveling particles must have when they collide.
How to calculate Kinetic energy of photoelectrons when threshold energy is given?
The Kinetic energy of photoelectrons when threshold energy is given is defined as kinetic energy consumed by a moving particle when it moves from one point to another is calculated using Kinetic Energy=Energy of photon-Threshold energy. To calculate Kinetic energy of photoelectrons when threshold energy is given, you need Energy of photon (E) and Threshold energy (W). With our tool, you need to enter the respective value for Energy of photon and Threshold energy 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 Kinetic Energy?
In this formula, Kinetic Energy uses Energy of photon and Threshold energy. We can use 11 other way(s) to calculate the same, which is/are as follows -
  • Kinetic Energy=(Mass*Velocity^2)/2
  • Kinetic Energy=(Equivalent Mass Moment of Inertia of geared system with shaft A and shaft B*(Angular Acceleration of Shaft A)^2)/2
  • Kinetic Energy=[hP]*(Frequency of photon-Threshold frequency)
  • Kinetic Energy=(Atomic number*([Charge-e]^2))/(2*Radius of orbit)
  • Kinetic Energy=(Total mass of the constraint*(Longitudinal velocity of the free end^2))/6
  • Kinetic Energy=(33*Total mass of the constraint*(Transverse velocity of the free end^2))/280
  • Kinetic Energy=(Total mass moment of inertia *((Angular velocity of free end*Distance b/w small element and fixed end)^2)*Length of small element)/(2*(Length of the constraint^3))
  • Kinetic Energy=(Total mass moment of inertia *(Angular velocity of free end^2))/6
  • Kinetic Energy=((Mass 1*(velocity of particle with mass m1^2))+(Mass 2*(velocity of particle with mass m2^2)))/2
  • Kinetic Energy=((Mass 1*(Radius of mass 1^2))+(Mass 2*(Radius of mass 2^2)))*(Angular Velocity^2)/2
  • Kinetic Energy=Moment of Inertia*(Angular Velocity^2)/2
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