Concept explainers
The energy of the waves from highest to lowest.
Answer to Problem 38Q
The energy of the waves will be arranged as:
Explanation of Solution
Given data:
Wave I:
Wave II:
Wave III:
Wave IV:
Wave V:
Wave VI:
Formula used:
The energy of the waves are calculated by the following formula:
Calculation:
Having the known values, the energy of the wave is calculated as:
Where, E is the energy of the wave.
h is the Planck’s constant;
c is the velocity of light;
Conclusion:
Thus, the energy of the waves are arranged as:
Want to see more full solutions like this?
Chapter 6 Solutions
Inquiry into Physics
- This question involves some coding. We are using Juypter Lab to do our coding. If the coding cannot be done that is fine as I would just use that part to see how others do the coding (like tricks and special commands). Otherwise just solving the equations as needed would be fine. Thanks!arrow_forwardQ.No.3: Write a note, one by one, on all the features in “Radio Stack” of Cessna-172.arrow_forwardI got the first two parts correct but the last I am struggling with my strategy so far is using the intensity=watts/area formula with 8.680e+09 V/m as the intensity of the wattage I found previously and the area I am using the diameter form of the circle equation. then I used algebra to solve. The issue I believe is that 8.680e+09 V/m is not in the right units but am not sure where to progress from there.arrow_forward
- Pls explain in a few sentences.arrow_forwardThe figure shows the circular wave fronts emitted by two sources, the wavelength for both idential waves is 1.4 m. What is the path-length difference at point Q, in meters? Your answer needs to have 2 significant figures, including the negative sign in your answer if needed. Do not include the positive sign if the answer is positive. No unit is needed in your answer, it is already given in the question statement.arrow_forwardcannon is fired some distance away from you, and you wishto estimate that distance by determining how much soundenergy enters your ear. (a) How does the sound energydepend on the distance between the cannon and your ear?(b) Now you use the dependence you described in part a tojudge how far away the cannon is. First you estimate the distanceassuming that none of the energy in the sound wavesis dissipated (into, say, random motion of the molecules thatmake up the air), and then you repeat the estimate assumingthat some of the sound energy is dissipated. Is your first estimatehigher or lower than your second estimate?arrow_forward
- Be elaborative.. explain it nicelyarrow_forwardNeed help with this problem, I just posted on here a few minutes ago and the answer I got was wrong but I couldn't comment or anything to the person who answered it. Please read carefully and answer in the right form, the way it was asked for all three parts with work.arrow_forwardImagine u are hiking along а trail wide, dryr canyon where thec outdoor temperature is T=25° C determine how, far you aret away fom the canyon wall, you yell: Bye" and hear the echo t= 2.45 s later. Then calculate the speed of that sound in m/s if the speed at 0° C is 330 m/s . Then how far are u from the canyon wall in m? If u stood at the same point on a cold day were T2 = -7.5 °C how long is have taken fou u to hear the echo in s?arrow_forward
- Verify that the SI unit of h?g is N/m2 Show work pleasearrow_forwardKindly answer all the subparts of this question based on the passage in a clear handwriting with details. I am providing the full question because the whole question is related. These are not seperate questions. It is only a whole question. kindly solve the questions following the given instructions of the question with mentioning the subpart's number as 'a' , 'b', 'c', 'd' and 'e'. Kindly check the answer before providing it to me as it is my second post of this question. I have got wrong answers in the previous one.arrow_forwardSuppose a bat uses sound echoes to locate its insect prey, 3.00 m away. (a) Calculate the echo times for temperatures of 5.00C and 35.0C. (b) What percent uncertainty does this cause for the bat in locating the insect? (c) Discuss the significance of this uncertainty and whether it could cause difficulties for the bat. (In practice, the bat continues to use sound as it closes in, eliminating most of any difficulties imposed by this and other effects, such as motion of the prey.)arrow_forward
- University Physics Volume 1PhysicsISBN:9781938168277Author:William Moebs, Samuel J. Ling, Jeff SannyPublisher:OpenStax - Rice University