the substrate in this reaction is? QUESTION 3 Consider the standing wave on a string shown...
please show work for the answer The standing wave shown below is created on a string with a mechanical driver operating at a frequency of 31 Hz. To create the standing wave shown below on this same string, at what frequency should the string be driven?
1. How many wavelengths are shown in the standing wave pattern pictured below? 2. If the standing wave in question 1 is created using a string with linear mass density of 0.0003 kg/m and under tension of 5 N, what is the speed of the wave? 3. If the length of the string in questions 1 and 2 is 1 m, what is the frequency of the wave? 4. A standing wave is produced in a hollow tube as shown...
A 2.0 meters long string is fixed but both ends and tightened until the wave speed is 40 m/s. What is the frequency of the standing wave shown in figure below?
A 100cm string is fixed at both ends. You produce a standing wave that has 3 antinodes. What is the wavelength of this standing wave?
An electromagnet is used to create the standing wave pattern shown below. The string of 6 grams and a length of 150 cm. The tension in the string is created by the 250 gram hanging a) Determine the wavelength lambda of the travelling waves. b) Determine the speed of the travelling waves. c) Determine the frequency f and period of the travelling waves.
If the wavelength of the fourth harmonic of a standing wave on a string is 7.2 cm, what is the length of the string?
The 3rd harmonics (n=3) standing wave on an oscillating string that is fixed on both ends has a 15 cm wavelength. Find the length of the string in cm.
You generate a standing wave on a 1-m long string, fixed on both ends, by forcing it to vibrate at 100 Hz. When doing so, the standing wave has a wavelength of 1 m. According to the wave equation, v=Af, the speed of the wave along the string is 100 m/s. Suppose the forcing frequency is doubled to 200 Hz, without changing the length, tension or ends of the string. What is the new wavelength and wave speed? A. The...
Question 13 4 pts If a standing wave on a string of length, L, shows four peaks and four troughs between two fixed points, what is NOT true about this wave? It has 5 nodes The frequency is equal to 46/L m-4 The wavelength is equal to 2L It has 4 antinodes
Question 14 (1 point) The picture shows a standing wave on a string. We learned that standing waves are comprised of traveling waves. What is the wavelength of one of the components of the traveling waves? 0.50 m Х 6.0 m 6.0 m 6.0 m 4.0 m 0 2.0 m 3.0 m O none of these