Page **1** of **1**

### Einstein's Equation

Posted: **Sun Oct 13, 2019 8:44 pm**

by **Sean Sugai 4E**

What does Ek=hv–Φ mean in terms of kinetic energy, electron ejection, intensity of the wave, and work function? Also, what interpretations were made from this equation regarding the photoelectric effect?

### Re: Einstein's Equation

Posted: **Sun Oct 13, 2019 8:54 pm**

by **kpang_4H**

The photoelectric experiment consisted of shining light onto a metal surface to measure the energy needed to remove electrons from different metals. Kinetic energy is equal to energy of the photon minus the the energy to remove the electron (work function/threshold energy). This equation illustrates the concept of conservation of energy.

### Re: Einstein's Equation

Posted: **Mon Oct 14, 2019 9:32 pm**

by **Lauren Tanaka 1A**

The photoelectric effect is defined as E(Photon) - threshold E = Kinetic energy of the electron. In order for an electron to be ejected and have KE, the E(Photon) has to be greater than the threshold energy of the metal. If the E(Photon) and threshold energy are equal an electron will be removed but will have no KE.

### Re: Einstein's Equation

Posted: **Wed Oct 16, 2019 4:32 pm**

by **Sam McNeill 1E**

Try to think of it as whatever the difference between the energy of the photon absorbed and the energy actually needed to remove an electron results in the kinetic, left over energy of the photon pushing out the electron at different velocities.