The meaning of h in the Planck's constant is the photon having a frequency of one unit in any scale.
wavelength since frequency =hc/lambda h=plancks constant and c=velocity of light
No, gas constant is having a value of 8.314Jk-1mol-1 Whereas plancks constant has a value of 6.6*10-31
I assume the equation you're looking for is E=hv or E=hc/lambda. h is plancks constant and c is speed of light in m/s. lambda is in metres
Planck's constant relates the energy level of radiation due to electrons moving from one energy level to another, by the formula Energy = (Planck's constant) x (frequency of radiation). Therefore the dimensions of Planck's constant are (energy)/(frequency) which means Joules x seconds In fact Planck's constant = 6.67 x 10-34 joule.seconds.
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(E) Photon=E2-E1= hv h=Plancks constant v=frequency
wavelength since frequency =hc/lambda h=plancks constant and c=velocity of light
led is used to determine Plancks 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 )
No, gas constant is having a value of 8.314Jk-1mol-1 Whereas plancks constant has a value of 6.6*10-31
use the equation E = hf where h is plancks constant E = 410E 7 * 6.63E -34 E = 2.7183E -23 joules
The h in the hc stands for plancks constant which is 6.63 x10^-34, which is negative. :)
I assume the equation you're looking for is E=hv or E=hc/lambda. h is plancks constant and c is speed of light in m/s. lambda is in metres
H in chemistry stands for hydrogen. In Physics is stands for Planck's Constant In measurement it stands for hecto~ ( prefix meaning 100)
Wavelength = Plancks constant / (Mass x Velocity)
wavelength = h/p (h= Plancks constant = 6.636*10^-34 kg*m^2/s) p=m*v Combining these gives us v=h/(m*wavelength)=8.37*10^6 m/s
Electromagnetic radiation is one way that energy can be transfered across a distance. EM radiation can be thought of as packets of wave, each called a photon. A photon has a certain amount of energy, which can be found using the formula "E = hf", where 'f' is the frequency of the light, and 'h' is plancks constant (h = 6.626×10−34 Js).