What wavelengths will form standing waves? What are harmonics, overtones, and beats?

Square waves of 200 and 301Hz are sounded together. How many beats are heard? Write out...

Square waves of 200 and 301Hz are sounded together. How many beats are heard? Write out the harmonics of each tone and indicate harmonics that might beat with harmonics of the other tone. Do the same for sawtooth waves at these frequencies. Can second-order beats be explained as beats between harmonics of the two tones?

6) (a) Draw a diagram to represent the standing wave patterns for the first five harmonics...

6) (a) Draw a diagram to represent the standing wave patterns for the first five harmonics of a rope fixed at both ends. (b) How many nodes and antinodes are there for each harmonic? (c) What are the relations for the length of the rope L, the wavelength λ, and the frequency f of the standing waves?

7) (a) Draw a diagram to represent the standing wave patterns for the first three harmonics...

7) (a) Draw a diagram to represent the standing wave patterns for the first three harmonics of a pipe with one open end. (i) How many nodes and antinodes are there for each harmonic? (ii) What are the relations for the length of the rope L, the wavelength λ, and the frequency f of the standing waves?

A weighted string 1 meter long is shown to have a standing wave when v is...

A weighted string 1 meter long is shown to have a standing wave when v is equal to 220. The frequency is 11o Hz and is the fundamental frequency. Find the next 3 Overtones and the first 3 harmonics.

a) What are the waves called whose wavelengths are just shorter than visible light? Describe one...

a) What are the waves called whose wavelengths are just shorter than visible light? Describe one of their applications. b) What are the next shorter waves called? Describe one of their applications. c) What are the waves called whose wavelengths are just longer than visible light? Describe one of their applications. d) What are the next longer waves called? Describe one of their applications.

What is the difference between a traveling wave and a standing wave? Why do standing waves...

What is the difference between a traveling wave and a standing wave? Why do standing waves have normal modes? What's an example of a standing wave on a string. Give an example of a standing wave in a air column?

Consider a 3 meter long open organ pipe. Determine its first 3 harmonics and wavelengths.

Consider a 3 meter long open organ pipe. Determine its first 3 harmonics and wavelengths.

Consider a string of length L that is clamped at both ends so standing waves that...

Consider a string of length L that is clamped at both ends so standing waves that form on the string have nodes at end points. The string is actually composed of two parts, connected at the middle. Waves of first part (on left) have phase velocity vo, while waves of second part (on right) have phase velocity 2vo. Waves travel from end to end, but standing waves must have a node at the center (where the two parts are connected)....

The frequencies of two successive higher harmonics of a standing sound wave in a closed-closed tube...

The frequencies of two successive higher harmonics of a standing sound wave in a closed-closed tube is 450 Hz and 600 Hz. There are no other frequencies in between these two. What are the frequencies of the fundamental (1st harmonic) and the second harmonic of this tube? Draw the standing wave pattern (with respect to pressure variation) of the second harmonic. Mark the nodes and anti-nodes.

Two separate, coherent lasers generate waves whose wavelengths are 0.1m. The two waves travel and arrive...

Two separate, coherent lasers generate waves whose wavelengths are 0.1m. The two waves travel and arrive at a particular point. If one wave travels 1 m and the other travels 2 m, what type of interference pattern occurs at this point? Give some examples of your answer in your daily life. Two separate, coherent lasers generate waves whose wavelengths are 1 m. The two waves travel and arrive at a particular point. If one wave travels 2 m and the...