E = hv Where h is the Planck's constant v is the frequency of the photon and E is the energy of the photon
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
wavelength since frequency =hc/lambda h=plancks constant and c=velocity of light
A linear equation is when each term in the algebraic equation is either a constant or the product has a single variable and a constant.
constant
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
(E) Photon=E2-E1= hv h=Plancks constant v=frequency
The value of Planck's constant is approximately 6.626 x 10^-34 m^2 kg / s. It is a fundamental physical constant that relates the energy of a photon to its frequency.
The energy of electromagnetic radiation is directly proportional to its frequency. This relationship is described by Planck's equation: E = hν, where E is the energy, h is Planck's constant, and ν is the frequency. This means that as the frequency of electromagnetic radiation increases, so does its energy.
wavelength since frequency =hc/lambda h=plancks constant and c=velocity of light
The value of the mu constant in the equation is 3.14159.
A linear equation is when each term in the algebraic equation is either a constant or the product has a single variable and a constant.
That depends on what the equation is.
The phase constant in the equation is 180 degrees.
Equation model?
The constant "t" in an equation represents time, and its significance lies in determining how the variables in the equation change over time.