E is energy in Joules (J) or Electron Volts (eV).
h is Planck's Constant. When using joules, Planck's constant is 6.63*10^-34 Joule*seconds (J*s). When using electron volts, Planck's constant is 4.14*10^-15 electron volt*seconds (eV*s).
f is the frequency of light in inverse seconds or 1/second
w = hf - E
The 'c' in that equation stands for the speed of light in a vacuum. If the equation is being evaluated in metric units, then it's 299,792,458 meters per second. If in English units, then it's 186,282 miles per second.
Albert Einstein.Except that the equation was e = mc2
Albert Einstein
The formula for energy. E is for energy(Units = Joules) P is for power(Units = Watts) T is for time(Units = Seconds)
w = hf - E
E = energy energy = mass X velocity of light squared The common form of the equation in conventional units is E = mc^2, but in relativistic units (where the speed of light c is 1) the equation reduces to just E = m which is much easier to calculate. The factor c^2 is just a units conversion constant.
Energy E=hf=hc/w where w is the wavelength.
The 'c' in that equation stands for the speed of light in a vacuum. If the equation is being evaluated in metric units, then it's 299,792,458 meters per second. If in English units, then it's 186,282 miles per second.
How did scientists apply albert einsteins equation e equals mc2?"
Albert Einstein.Except that the equation was e = mc2
Albert Einstein.
An equation where e = 4
Albert Einstein
Albert Einstein
A linear equation in the single variable, e.
The formula for energy. E is for energy(Units = Joules) P is for power(Units = Watts) T is for time(Units = Seconds)