- Planck's constant ^.^
We need to know the equation E=h where h=plancks constant . From this equation you can see that energy and frequency are directly related ( one increases as the other one dicrease )
use the equation E = hf where h is plancks constant E = 410E 7 * 6.63E -34 E = 2.7183E -23 joules
E!! apex
How did scientists apply albert einsteins equation e equals mc2?"
In the equation E=he, h represents Planck's constant, which is a fundamental physical constant that relates the energy of a photon to its frequency.
- Planck's constant ^.^
- Planck's constant ^.^
E = mc2 j = 4out h = 9in
C6H3O73- -> C5H4O5 + CO2 + H+ + 4 e-
E = hv Where h is the Planck's constant v is the frequency of the photon and E is the energy of the photon
We need to know the equation E=h where h=plancks constant . From this equation you can see that energy and frequency are directly related ( one increases as the other one dicrease )
Energy in case of matter is E = m c^2 In case of photon energy E = h n. m - mass , c - velocity of light h - planck's constant and n - frequency of radiation
use the equation E = hf where h is plancks constant E = 410E 7 * 6.63E -34 E = 2.7183E -23 joules
In the equation "you = mgh", divide both sides of the equation by mg, or you/mg = mgh/mg. The answer then is h = you/mg.
If 12.89 + h = 36.77,then h = 23.88 after subtracting 12.89 from each side of the equation.
E. H. H. Green was born in 1958.