Reset the PHET simulation (using tho buttori in the lower tight) and set it up in the following manner select Oscillate, select No End, and use the parameters in parentheses by sliding the bars for Amplitude (100 cm). Frequency (2 00 Hz). Damping (none), and Tension (highest) Lising the available Rulers, calculate the frequency of a photon that corresponds to the wavelength of the resulting wave. Assume the longth with unts (cm) of the ruler represents the real photon wavelength and that the spcod of light is 3.00 x 10° m/s. Express the frequency in hertz to two significant figures. > View Available Hint(s) Vo AEO frequency= Hz Submit

Reset the PHET simulation (using tho buttori in the lower tight) and set it up in the following manner select Oscillate, select No End, and use the parameters in parentheses by sliding the bars for Amplitude (100 cm). Frequency (2 00 Hz). Damping (none), and Tension (highest) Lising the available Rulers, calculate the frequency of a photon that corresponds to the wavelength of the resulting wave. Assume the longth with unts (cm) of the ruler represents the real photon wavelength and that the spcod of light is 3.00 x 10° m/s. Express the frequency in hertz to two significant figures. > View Available Hint(s) Vo AEO frequency= Hz Submit

Related questions

Q: *Problem 1.5 Consider the wave function ¥(x. t) = Ae¬lx1e-iwr, where A, 2, and w are positive real…

A: The wavefunction is given as ψ=Ae-λxe-iωt (a) Normalize the wavefunction The condition for…

Q: The uncer tainty in position of a Stationavy 4.8 kg block Is rOughly -10 an atomic dlameter, or…

A: 10Mass of block = 4.8kg Uncertainty in position ∆x= 10-10m

Q: YOTA Tinkoff 12:04 M ← 4.1 26 K/s Quiz 1.3. The Differen... Tries remaining: 1 Question 12 Marked…

A: The objective of the question is to find the total differential of the function g = (xy - 2x)^2. The…

Q: DATA TABLE Calculate the experimental value of the frequency f for each hanging mass and the…

Q: Solve the following exercises; document each step of the process. 1. Consider a double-slit Young…

A: please see the next step for solution

Q: 1. Evaluate the following quantities for the quantum simple harmonic oscillator (SHO): (a) (x) x…

A: Given : Two integrals in terms ground state , first excited state and second excited state.Our task…

Q: A particle of mass m in a one-dimensional harmonic oscillator is initially in a state given by…

A: The quantum mechanics is a field of physics which deals with very small particles. It was started at…

Q: The explanation of the concept involved in quantum mechanics and construct concept map of it. Also,…

A: Quantum mechanics is the part of physics that deals with the mathematical description of motion of…

Q: For each of the series below you find two answer fields. In the first answer field enter: (inputs…

A: The objective of the question is to determine the limit of the given series and identify the…

Q: 22.Why does brightness decrease when more light bulbs are added in series? 23. Based on your…

A: We’ll answer the first question since the exact one wasn’t specified. Please submit a new question…

Q: d. Find an expression for the velocity of the electron at each energy level. Calculate the velocity…

A: Let an atom has Z number of protons in it's nucleus and one electron is revolving in nth orbit .

Q: consi da an el ecvon nith spia that lies along te n directira is giren by śn=n-S.where the unit…

A: Have a look dear I have uploaded the solution in step 2 and 3

Q: A spherical rotor is initially in a state described by angular momentum states |l, m) given by…

A: Given, |ψ0>=A4|0,0>+3|1,1>+2|2,-1>

Q: 7-11. Two cylindrical copper electrodes of radius a are oriented normal to a silicon disk of…

A: Given:-

Q: (c) Of a room-temperature proton? (Ans: 0.147nm) (d) In what circumstances should each behave as a…

Q: Draw and label the potential in the table on the right. Show the Wave Function, Y, expected in each…

A: This is very simple but conceptual problem in quantum mechanics. The solution of the Schrondinger…

Q: 3. A copper cable needs to carry a current of 3.0 × 10² A with a power loss of only 2.0 W/m. Show…

A: Given, I= 300 A We know that, Power (P) = I²R = V²R/R² = V²/R Therefore, P/L = I²R/L Given, P/L = 2…

Q: What is the phase constant for SMH with alt given in the figure if the position function x(t) has…

Question

100%

PHET Simulation - Wave on a String
< 2 of 9 >
Submit
Previous Answers
v Correct
The effect of damping is akin to the absorbance or partial reflection of light, whore the amplitude of in phase photons becomes reduced.
Part B
Reset the PHET simulation (using the button in the lower tight) and set it up in the following manner select Oscillate, select No End, and use the parameters in parentheses by sliding the bars for Amplitude (1.00 cm). Frequency (2.00 Hz).
Damping (none), and Tension (highest) Using the available Rulers, calculate the frequency of a photon that corresponds to the wavelength of the resulting wave. Assume the length with umits (cm) of the ruler represents the real photon wavelength
and that the spced of light is 3.00 x 10° m/s.
Express the frequency in hertz to two significant figures.
> View Available Hint(s)
ΑΣφ
frequency=
Hz
Submit
Part C Complete previous part(s)
452 PM
P Type here to search
Fi
322021

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 2 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Similar questions

PLEASE SOLVE WITH MATLAB. WILL GIVE LIKE!!!
How would I solve the empty chart just for experiment #1 using the experiment 1 data from the chart below and the formulas from the last picture?
Needs Complete solution with 100 % accuracy. Don't use chat gpt or ai i definitely upvote you.
Plz solve all parts Will definitely upvote
Consider a thin hoop of mass (1.420 ± 0.001) kg and radius (0.250 ± 0.002) m. The moment of inertia for a thin hoop rotating about an axis going through its center is MR2 . Calculate the moment of inertia of this hoop and its uncertainty using error propagation rules (see Appendix). Clearly show work. Please solve the uncertainty using the appendix I attached
Solve plz … you guys keep rejecting it saying it’s incomplete… It is complete
graphically to the right (note that the curve is a stralgl wwww 3 A quantum harmonic oscillator consists of a 100-gram mass attached to a spring with spring constant 60 N/m. This system, while ocillating, lowers its energy by dropping down one quantum state (quantum number n decreases by 1). If the energy that the oscillator loses is carried off by a photon, what would be the wavelength of this photon? Give your answer in meters. The answer does not depend on the oscillator's initial quantum state. A br ear vni