An Electron-volt is literally the amount of energy an electron receives going through 1 Volt. It’s a unit that’s analogous to a light-year, which is the distance light travels in one year. Can you use this to convert the result of the previous question to units of Joules? Having done this, does it explain why wouldn’t notice light’s particle-like properties on everyday scales? For reference, the electron charge is: e = 1.602 x 10—19 C
An Electron-volt is literally the amount of energy an electron receives going through 1 Volt. It’s a
unit that’s analogous to a light-year, which is the distance light travels in one year. Can you use this to convert the result of the previous question to units of Joules? Having done this,
does it explain why wouldn’t notice light’s particle-like properties on everyday scales? For reference, the electron charge is: e = 1.602 x 10—19 C
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The post An Electron-volt is literally the amount of energy an electron receives going through 1 Volt. It’s a unit that’s analogous to a light-year, which is the distance light travels in one year. Can you use this to convert the result of the previous question to units of Joules? Having done this, does it explain why wouldn’t notice light’s particle-like properties on everyday scales? For reference, the electron charge is: e = 1.602 x 10—19 C appeared first on Superb Professors.
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