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What relationship between C and Planck's Constant?

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What relationship between C and Planck's Constant?

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ᴛʜᴇ ᴘʟᴀɴᴄᴋ ᴄᴏɴsᴛᴀɴᴛ, ᴏʀ ᴘʟᴀɴᴄᴋ's ᴄᴏɴsᴛᴀɴᴛ ɪs ᴛʜᴇ ϙᴜᴀɴᴛᴜᴍ ᴏғ ᴇʟᴇᴄᴛʀᴏᴍᴀɢɴᴇᴛɪᴄ ᴀᴄᴛɪᴏɴ ᴛʜᴀᴛ ʀᴇʟᴀᴛᴇs ᴀ ᴘʜᴏᴛᴏɴ's ᴇɴᴇʀɢʏ ᴛᴏ ɪᴛs ғʀᴇϙᴜᴇɴᴄʏ. ᴛʜᴇ ᴘʟᴀɴᴄᴋ ᴄᴏɴsᴛᴀɴᴛ ᴍᴜʟᴛɪᴘʟɪᴇᴅ ʙʏ ᴀ ᴘʜᴏᴛᴏɴ's ғʀᴇϙᴜᴇɴᴄʏ ɪs ᴇϙᴜᴀʟ ᴛᴏ ᴀ ᴘʜᴏᴛᴏɴ's ᴇɴᴇʀɢʏ. ᴛʜᴇ ᴘʟᴀɴᴄᴋ ᴄᴏɴsᴛᴀɴᴛ ɪs ᴀ ғᴜɴᴅᴀᴍᴇɴᴛᴀʟ ᴘʜʏsɪᴄᴀʟ ᴄᴏɴsᴛᴀɴᴛ ᴅᴇɴᴏᴛᴇᴅ ᴀs {\ᴅɪsᴘʟᴀʏsᴛʏʟᴇ ʜ}ʜ, ᴀɴᴅ ᴏғ ғᴜɴᴅᴀᴍᴇɴᴛᴀʟ ɪᴍᴘᴏʀᴛᴀɴᴄᴇ ɪɴ ϙᴜᴀɴᴛᴜᴍ ᴍᴇᴄʜᴀɴɪᴄs. ɪɴ ᴍᴇᴛʀᴏʟᴏɢʏ ɪᴛ ɪs ᴜsᴇᴅ ᴛᴏ ᴅᴇғɪɴᴇ ᴛʜᴇ ᴋɪʟᴏɢʀᴀᴍ ɪɴ sɪ ᴜɴɪᴛs.[2]

ᴛʜᴇ ᴘʟᴀɴᴄᴋ ᴄᴏɴsᴛᴀɴᴛ ɪs ᴅᴇғɪɴᴇᴅ ᴛᴏ ʜᴀᴠᴇ ᴛʜᴇ ᴇxᴀᴄᴛ ᴠᴀʟᴜᴇ {\ᴅɪsᴘʟᴀʏsᴛʏʟᴇ ʜ=}ʜ= 6.62607015×10−34 ᴊ⋅s ɪɴ sɪ ᴜɴɪᴛs.[3][4]

ᴛʜᴇ ᴘʟᴀɴᴄᴋ–ᴇɪɴsᴛᴇɪɴ ʀᴇʟᴀᴛɪᴏɴ[1][2][3] ɪs ᴀʟsᴏ ʀᴇғᴇʀʀᴇᴅ ᴛᴏ ᴀs ᴛʜᴇ ᴇɪɴsᴛᴇɪɴ ʀᴇʟᴀᴛɪᴏɴ,[1][4][5] ᴘʟᴀɴᴄᴋ's ᴇɴᴇʀɢʏ–ғʀᴇϙᴜᴇɴᴄʏ ʀᴇʟᴀᴛɪᴏɴ,[6] ᴛʜᴇ ᴘʟᴀɴᴄᴋ ʀᴇʟᴀᴛɪᴏɴ,[7] ᴀɴᴅ ᴛʜᴇ ᴘʟᴀɴᴄᴋ ᴇϙᴜᴀᴛɪᴏɴ.[8] ᴀʟsᴏ ᴛʜᴇ ᴇᴘᴏɴʏᴍ ᴘʟᴀɴᴄᴋ ғᴏʀᴍᴜʟᴀ[9] ʙᴇʟᴏɴɢs ᴏɴ ᴛʜɪs ʟɪsᴛ, ʙᴜᴛ ᴀʟsᴏ ᴏғᴛᴇɴ ʀᴇғᴇʀs ᴛᴏ ᴘʟᴀɴᴄᴋ's ʟᴀᴡ ɪɴsᴛᴇᴀᴅ.[10][11] ᴛʜᴇsᴇ ᴠᴀʀɪᴏᴜs ᴇᴘᴏɴʏᴍs ᴀʀᴇ ғᴀʀ ғʀᴏᴍ sᴛᴀɴᴅᴀʀᴅ; ᴛʜᴇʏ ᴀʀᴇ ᴜsᴇᴅ ᴏɴʟʏ sᴘᴏʀᴀᴅɪᴄᴀʟʟʏ, ɴᴇɪᴛʜᴇʀ ʀᴇɢᴜʟᴀʀʟʏ ɴᴏʀ ᴠᴇʀʏ ᴡɪᴅᴇʟʏ. ᴛʜᴇʏ ʀᴇғᴇʀ ᴛᴏ ᴀ ғᴏʀᴍᴜʟᴀ ɪɴᴛᴇɢʀᴀʟ ᴛᴏ ϙᴜᴀɴᴛᴜᴍ ᴍᴇᴄʜᴀɴɪᴄs, ᴡʜɪᴄʜ sᴛᴀᴛᴇs ᴛʜᴀᴛ ᴛʜᴇ ᴇɴᴇʀɢʏ ᴏғ ᴀ ᴘʜᴏᴛᴏɴ, ᴇ, ᴋɴᴏᴡɴ ᴀs ᴘʜᴏᴛᴏɴ ᴇɴᴇʀɢʏ, ɪs ᴘʀᴏᴘᴏʀᴛɪᴏɴᴀʟ ᴛᴏ ɪᴛs ғʀᴇϙᴜᴇɴᴄʏ, ν:

{\ᴅɪsᴘʟᴀʏsᴛʏʟᴇ ᴇ=ʜ\ɴᴜ }

ᴛʜᴇ ᴄᴏɴsᴛᴀɴᴛ ᴏғ ᴘʀᴏᴘᴏʀᴛɪᴏɴᴀʟɪᴛʏ, ʜ, ɪs ᴋɴᴏᴡɴ ᴀs ᴛʜᴇ ᴘʟᴀɴᴄᴋ ᴄᴏɴsᴛᴀɴᴛ. sᴇᴠᴇʀᴀʟ ᴇϙᴜɪᴠᴀʟᴇɴᴛ ғᴏʀᴍs ᴏғ ᴛʜᴇ ʀᴇʟᴀᴛɪᴏɴ ᴇxɪsᴛ, ɪɴᴄʟᴜᴅɪɴɢ ɪɴ ᴛᴇʀᴍs ᴏғ ᴀɴɢᴜʟᴀʀ ғʀᴇϙᴜᴇɴᴄʏ, ω:

{\ᴅɪsᴘʟᴀʏsᴛʏʟᴇ ᴇ=\ʜʙᴀʀ \ᴏᴍᴇɢᴀ }

ᴛʜᴇ ʀᴇʟᴀᴛɪᴏɴ ᴀᴄᴄᴏᴜɴᴛs ғᴏʀ ϙᴜᴀɴᴛɪᴢᴇᴅ ɴᴀᴛᴜʀᴇ ᴏғ ʟɪɢʜᴛ, ᴀɴᴅ ᴘʟᴀʏs ᴀ ᴋᴇʏ ʀᴏʟᴇ ɪɴ ᴜɴᴅᴇʀsᴛᴀɴᴅɪɴɢ ᴘʜᴇɴᴏᴍᴇɴᴀ sᴜᴄʜ ᴀs ᴛʜᴇ ᴘʜᴏᴛᴏᴇʟᴇᴄᴛʀɪᴄ ᴇғғᴇᴄᴛ, ᴀɴᴅ ᴘʟᴀɴᴄᴋ's ʟᴀᴡ ᴏғ ʙʟᴀᴄᴋ-ʙᴏᴅʏ ʀᴀᴅɪᴀᴛɪᴏɴ. sᴇᴇ ᴀʟsᴏ ᴛʜᴇ ᴘʟᴀɴᴄᴋ ᴘᴏsᴛᴜʟᴀᴛᴇ.

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Answered by Mrpikachu1

Answer:

The Planck constant, or Planck's constant is the quantum of electromagnetic action that relates a photon's energy to its frequency. The Planck constant multiplied by a photon's frequency is equal to a photon's energy. The Planck constant is a fundamental physical constant denoted as {\displaystyle h}h, and of fundamental importance in quantum mechanics. In metrology it is used to define the kilogram in SI units.[2]

The Planck constant is defined to have the exact value {\displaystyle h=}h= 6.62607015×10−34 J⋅s in SI units.[3][4]

At the end of the 19th century, accurate measurements of the spectrum of black body radiation existed, but predictions of the frequency distribution of the radiation by then-existing theories diverged significantly at higher frequencies. In 1900, Max Planck derived empirically a formula for the observed spectrum. He assumed that a hypothetical electrically charged oscillator in a cavity that contained black-body radiation could only change its energy in a minimal increment, {\displaystyle E}E, that was proportional to the frequency of its associated electromagnetic wave.[5] He was able to calculate the proportionality constant, {\displaystyle h}h, from the experimental measurements, and that constant is named in his honor. In 1905, the value {\displaystyle E}E was associated by Albert Einstein with a "quantum" or minimal element of the energy of the electromagnetic wave itself. The light quantum behaved in some respects as an electrically neutral particle. It was eventually called a photon. Max Planck received the 1918 Nobel Prize in Physics "in recognition of the services he rendered to the advancement of Physics by his discovery of energy quanta".

Since energy and mass are equivalent, the Planck constant also relates mass to frequency.

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