Homework Answers
The question is regarding photoelectric effect. Binding energy of electron exist due to presence to protons in an atom
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3. When metals are irradiated with light of a high enough frequency, electrons are ejected with...
3. When metals are irradiated with light of a high enough frequency, electrons are ejected with...
3. When metals are irradiated with light of a high enough frequency, electrons are ejected with kinetic energy given by the equation: KE = hv - o where his Planck's constant, v is the frequency of the light, and p is the binding energy of the electron in the metal atom. a) Which do you expect to have a higher binding energy, magnesium or sodium? Explain your answer in 1-2 sentences.
11. If a metal surface is irradiated with 185 nm light, electrons are ejected with a...
11. If a metal surface is irradiated with 185 nm light, electrons are ejected with a velocity of 8.90 x 105 m/s. What is the minimum frequency (in Hz) of light that could be used which will still eject electrons from the surface?
Electrons are emitted from the surface of a metal when it's exposed to light. This is...
Electrons are emitted from the surface of a metal when it's exposed to light. This is called the photoelectric effect. Each metal has a certain threshold frequency of light, below which nothing happens. Right at this threshold frequency, an electron is emitted. Above this frequency, the electron is emitted and the extra energy is transferred to the electron. The equation for this phenomenon is KE=hν−hν0KE=hν−hν0 where KEKEKE is the kinetic energy of the emitted electron, h=6.63×10−34J⋅sh=6.63×10−34J⋅s is Planck's constant, ννnu...
***Please help fill in the table finding KE...& the following questions Metal Wavelength (nm) Frequency (Hz)...
***Please help fill in the table finding KE...& the
following questions
Metal Wavelength (nm) Frequency (Hz) f Stopping Voltage (V) KE (J) Sodium 125 2.4*1015 -7.58 Sodium 300 1.0*1015 -1.79 Sodium 450 6.7*1014 -0.45 Sodium 538 5.57 1014 -0.01 Sodium 540 5.55*1014 0 a. Describe what happens to the stopping voltage for wavelengths greater than or equal to 540 nm. Based upon your knowledge of the atom, hypothesize an explanation for such behavior. b. At 540nm no electrons are ejected....
Electrons are from the surface of a metal when it's expected to light. This is called...
Electrons are from the surface of a metal when it's expected to light. This is called the Each metal has a certain frequency of light, below which nothing happens. Right of this frequency, an electron is above this frequency the electron is earned and the exits energy is transeferred to the electrons. The equation for this is where KE in the energy of the emitted electron, h = 6.63 Times 10^-34 J.s in placke's constant v is the frequency of...
Which of the colors of visible light have enough energy to eject electrons from this metal?
A metal foil has a threshold frequency of 5.45 x 1014 Hz. Which of the colors of visible light have enough energy to eject electrons from this metal? indigo yellow blue green violet orange red
When light of frequency 1.30x 1015 s-1 shines on the surface of cesium metal, electrons are...
When light of frequency 1.30x 1015 s-1 shines on the surface of cesium metal, electrons are ejected with a maximum kinetic energy of 5.2x 10-19 J.Calculate the wavelength of this light in nm
2. (3 points) When light with wavelength of 221 nm is incident on a certain metal...
2. (3 points) When light with wavelength of 221 nm is incident on a certain metal surface, electrons are ejected with maximum kinetic energy of 3.28 x 1019). a) What is the binding energy (the work function)? Express your answer in ev. b) Find the wavelength of light necessary to double the maximum kinetic energy of the electrons ejected from the metal.
The Photoelectric Effect A Review Constants Periodic Table Electrons are emitted from the surface of a...
The Photoelectric Effect A Review Constants Periodic Table Electrons are emitted from the surface of a metal when it's exposed to light. This is called the photoelectric effect. Each metal has a certain threshold frequency of light, below which nothing happens. Right at this threshold frequency, an electron is emitted. Above this frequency, the electron is emitted and the extra energy is transferred to the electron The equation for this phenomenon is Here are some data collected on a sample...
Quantum Physics - Photoelectric Effect 1 Light Light2 Photo- electrons KEL KEN-W Photoelectric Effect Lenard found...
Quantum Physics - Photoelectric Effect 1 Light Light2 Photo- electrons KEL KEN-W Photoelectric Effect Lenard found that light has to be above a certain frequency in order to observe photoelectrons The Planck constant is 6.626x10^-34 J s. The calcium metal has a work function WO = 2.71 eV, 1eV = 1.6x10^-19). (a) What is the Cutoff frequency for the calcium metal? Write the result in terms of 1014Hz. Keep 3 decimal places. Enter a number x1024Hz Submit (5 attempts remaining)...
3. When metals are irradiated with light of a high enough frequency, electrons are ejected with kinetic energy given by the equation: KE = hv - o where his Planck's constant, v is the frequency of the light, and p is the binding energy of the electron in the metal atom. a) Which do you expect to have a higher binding energy, magnesium or sodium? Explain your answer in 1-2 sentences.
***Please help fill in the table finding KE...& the
following questions
Metal Wavelength (nm) Frequency (Hz) f Stopping Voltage (V) KE (J) Sodium 125 2.4*1015 -7.58 Sodium 300 1.0*1015 -1.79 Sodium 450 6.7*1014 -0.45 Sodium 538 5.57 1014 -0.01 Sodium 540 5.55*1014 0 a. Describe what happens to the stopping voltage for wavelengths greater than or equal to 540 nm. Based upon your knowledge of the atom, hypothesize an explanation for such behavior. b. At 540nm no electrons are ejected....
Electrons are from the surface of a metal when it's expected to light. This is called the Each metal has a certain frequency of light, below which nothing happens. Right of this frequency, an electron is above this frequency the electron is earned and the exits energy is transeferred to the electrons. The equation for this is where KE in the energy of the emitted electron, h = 6.63 Times 10^-34 J.s in placke's constant v is the frequency of...
2. (3 points) When light with wavelength of 221 nm is incident on a certain metal surface, electrons are ejected with maximum kinetic energy of 3.28 x 1019). a) What is the binding energy (the work function)? Express your answer in ev. b) Find the wavelength of light necessary to double the maximum kinetic energy of the electrons ejected from the metal.
The Photoelectric Effect A Review Constants Periodic Table Electrons are emitted from the surface of a metal when it's exposed to light. This is called the photoelectric effect. Each metal has a certain threshold frequency of light, below which nothing happens. Right at this threshold frequency, an electron is emitted. Above this frequency, the electron is emitted and the extra energy is transferred to the electron The equation for this phenomenon is Here are some data collected on a sample...
Quantum Physics - Photoelectric Effect 1 Light Light2 Photo- electrons KEL KEN-W Photoelectric Effect Lenard found that light has to be above a certain frequency in order to observe photoelectrons The Planck constant is 6.626x10^-34 J s. The calcium metal has a work function WO = 2.71 eV, 1eV = 1.6x10^-19). (a) What is the Cutoff frequency for the calcium metal? Write the result in terms of 1014Hz. Keep 3 decimal places. Enter a number x1024Hz Submit (5 attempts remaining)...
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