Record the wavelength (in nm) in the data table. Calculate the frequency (in Hz, or 1/s) and the C and E= h*f where c = 3.0 x108 m/s and h = 6.626x10-34 J*s. Don't forget A energy (in J) using f : = to convert your wavelength units to meters. Remember 10⁹nm=1m. velength (nm) 400 410 420 430 440 450 460 Frequency (Hz) Laser Energy (J) Ejected Electron Kinetic Energy (J) Electron Intensity

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. Record the wavelength (in nm) in the data table. Calculate the frequency (in Hz, or 1/s) and the
C
and E = h*f where c = 3.0 x108 m/s and h = 6.626×10-34 J*s. Don't forget
X
energy (in J) using f
to convert your wavelength units to meters. Remember 10%nm=1m.
avelength (nm)
400
410
420
430
440
450
-
460
Frequency (Hz)
Laser Energy (J)
Ejected Electron
Kinetic Energy (J)
Electron Intensity
Transcribed Image Text:. Record the wavelength (in nm) in the data table. Calculate the frequency (in Hz, or 1/s) and the C and E = h*f where c = 3.0 x108 m/s and h = 6.626×10-34 J*s. Don't forget X energy (in J) using f to convert your wavelength units to meters. Remember 10%nm=1m. avelength (nm) 400 410 420 430 440 450 - 460 Frequency (Hz) Laser Energy (J) Ejected Electron Kinetic Energy (J) Electron Intensity
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Disclaimer: “Since you have asked posted a question with multiple sub-parts, we will solve the first three sub-parts for you. To get remaining sub-part solved please repost the complete question and mention the sub parts to be solved.”

We are given different wavelengths. We find frequency corresponding to these wavelengths.

The frequency is given as

f=cλ

Here λ is wavelength.

The energy is given as

E=hf

 

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