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Its value is constant.
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)
The relationship between frequency and energy of electromagnetic radiation was first described by the theoretical physicist Max Planck. He stated that the energy (E) of a single photon is directly proportional to the frequency of its associated electromagnetic wave (v). The coefficient of this proportionality is the Planck Constant (h). The relationship between frequency and energy is thus defined:E = hvThe value of h is 6.62606957(29)×10−34 joule-seconds.Since the frequency of light, v, can be defined as v = c/λ, we can re-write the energy calculation as:E = (hc)/λNote that these definitions are only true for electromagnetic radiation; the proportionality of frequency and energy in other types of waves is also true, but the relationship is not defined by the Planck constant in such cases.
Energy of the photon is got by using the formula E = hv v = 5.56 x 1014 Hz and h-Planck's constant = 6.626 x 10-34 Js Plug and solve by yourself. You would get the value of energy of photon in joule
Which things?There's no scientific reason known for why gravity is so much weaker than the other three fundamental forces, or for why Planck's constant has the specific value that it does, or any of a thousand other "why?" kinds of questions like that. They just are. If you feel like being metaphysical, you could say God made them that way; if you don't, you could say it was random chance.
Its value is constant.
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)
About $2.50 in normal circulated condition, up to maybe $40 if almost new-looking
The smallest unit of time is a Planck Time. It is approximately 5.39124 x 10^-44 second.
1.98644521 × 10-25 m3 kg / s2
Do you mean h, rather than H? h is Planck's constant, f would conventionally be frequency.
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.
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.
What is the value of a cef service at the front button
According to Planck's Law, it is impossible to create a perfect circle (2D plane), let alone a perfect sphere (3D plane). Planck's measurement is 10^-44Hz (sine curve), or the distance light travels in a second. Also, the value of Pi forbids any perfect measurement for the circumference, because the value never ends, no matter how close you get.
face value
The answer heavily depends on the value of 'x' ... a piece of information that thequestion neglects to mention.Not only will the value of 'x' completely determine the value of the given expression,but in addition, any change in the value of 'x' will cause a change in the value of theexpression instantaneously, in less than the Planck quantum of time, with not an iotaof propagation lag or latency whatsoever.