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What is Planck constant dimension?
The Planck constant has dimensions of energy multiplied by time. It is typically expressed in units of Joule seconds (J⋅s) or electron volt seconds (eV⋅s).
What are the units of h in the equation E equals hf?
E is energy in Joules (J) or Electron Volts (eV). h is Planck's Constant. When using joules, Planck's constant is 6.63*10^-34 Joule*seconds (J*s). When using electron volts, Planck's constant is 4.14*10^-15 electron volt*seconds (eV*s). f is the frequency of light in inverse seconds or 1/second
What is the process to calculate the energy difference for electron transition in a given system?
To calculate the energy difference for an electron transition in a system, you can use the formula E hf, where E is the energy difference, h is Planck's constant, and f is the frequency of the transition. This formula helps determine the amount of energy absorbed or emitted during the electron transition.
What was Max planck famous for?
Planck's idea that electromagnetic energy has proportional to its frequency , E = hf and the constant of proportionality is called Planck 's Constant h. Planck conceived of the energy as a particle like energy called a Photon. Planck's Energy should be called Photon Potential Energy E = hc/r
What is the smallest energy unit?
The smallest unit of energy is the Planck. This unit of energy is named after Max Planck and is in the natural system of energy.
Is an electron and photon the same thing. It seems like my book interchanges them for one another. I'm confused?
No. The electron is not a photon. An electron is a charged particle of matter. A photon is a unit of "energy-time" designated by Planck's Constant h.
What is the minimum amount of energy that can be lost or gained by an electron?
The minimum amount of energy that can be lost or gained by an electron is determined by the energy difference between energy levels in an atom. This energy is quantized and can be calculated using the equation E = hf, where E is energy, h is Planck's constant, and f is the frequency of the radiation.
Electron X can change to a higher energy level or a lower energy level Which statement is true of electron X?
Electron X can transition between energy levels by either absorbing or emitting a photon. The energy change corresponds to the photon's energy (ΔE = hf), where h is Planck's constant and f is the frequency of the photon. The transitions between energy levels are quantized and follow the laws of quantum mechanics.
What is the Equation by which energy and frequency are related?
Planck's Equation Energy=hf where h is Planck's Constant and f is the frequency.
What are the energies for waves in the electromagnetic spectrum?
Planck discovered the energy for electromagnetic waves to be Energy=hf. The energy is Planck's Constant times the frequency of the wave.
What is the process to calculate the energy difference for the electron transition in a given system?
To calculate the energy difference for an electron transition in a system, you can use the formula E hf, where E is the energy difference, h is Planck's constant, and f is the frequency of the transition. This formula relates the energy of the transition to the frequency of the light emitted or absorbed during the transition.
What is planck's quantization energy?
Planck's quantization of energy refers to the concept that energy is quantized, meaning it can only exist in discrete, specific amounts. This idea was proposed by Max Planck in 1900 as a way to explain the behavior of electromagnetic radiation. According to Planck's theory, energy can only be emitted or absorbed in multiples of fundamental units called quanta.
