Planck's constant was originally defined as the constant of proportionality in the relationship between the energy, E, of a charged atomic oscillator in a black body, and the frequency, ν, of its associated radiation. It is now defined, equivalently, as the quantum of action in quantum physics. Its value is 6.626*10^(-34) Joules seconds.
Planck's constant describes the ratio between the energy of an electromagnetic wave and the frequency of that wave.
No, Planck's Constant is a repeating decimal. 2/3E-33.
Planck's Constant is dimensionally equal to Angular Momentum. The unit is Joules second.
The value of Planck's constant depends on the system of units that are being used. The SI units are designed mainly for everyday measurements, where energies are usually of the order of kilojoules and a small period of time is a minute or second. However, the Planck's constant applies events at a subatomic scale so that these "normal" measurement units are not inappropriate.So the question changes in which units would the Plank's constant become 1. Further, the answer depends on how that change is achieved.
If Planck's constant could be affected, changed, influenced, impacted, modified, or revised by anything, then it's doubtful that the scientific community would refer to it as a 'constant', regardless of how great Planck was.
Its value is constant.
Planck's constant describes the ratio between the energy of an electromagnetic wave and the frequency of that wave.
No, Planck's Constant is a repeating decimal. 2/3E-33.
Planck's Constant is dimensionally equal to Angular Momentum. The unit is Joules second.
Hi, The original answer was: Planck's Constant = Energy/Frequency = [ML2T-2]/[T-1] = [ML2T-2] So, Dimensional Formula of Planck's Constant = [ML2T-2] In fact, it should read: Planck's Constant = Energy/Frequency = [ML2T-2]/[T-1] = [ML2T-1] So, Dimensional Formula of Planck's Constant = [ML2T-1] Regards, Lho
The value of Planck's constant depends on the system of units that are being used. The SI units are designed mainly for everyday measurements, where energies are usually of the order of kilojoules and a small period of time is a minute or second. However, the Planck's constant applies events at a subatomic scale so that these "normal" measurement units are not inappropriate.So the question changes in which units would the Plank's constant become 1. Further, the answer depends on how that change is achieved.
1.98644521 × 10-25 m3 kg / s2
If Planck's constant could be affected, changed, influenced, impacted, modified, or revised by anything, then it's doubtful that the scientific community would refer to it as a 'constant', regardless of how great Planck was.
The relation between the energy (E) of a photon and the frequency (v) of its associated electromagnetic wave is called the Planck relation or the Planck--Einstein equation:E = hvh is the Planck constant which as a value of about 6.626 * 10-34 J*s (a very very small number)
E = hv Where h is the Planck's constant v is the frequency of the photon and E is the energy of the photon
The meaning of h in the Planck's constant is the photon having a frequency of one unit in any scale.
Do you mean h, rather than H? h is Planck's constant, f would conventionally be frequency.