Select ALL the correct definitions of the period of a standing wave. E.g., if A and...
Select ALL the correct definitions of the period of a
standing wave.
E.g., if A and B are true and the rest are false, enter AB.
- The time for a complete oscillation.
- Twice the time for an antinode to go from y(t) = +y0 to y(t) = −y0.
- The time it takes an antinode to go from y(t) = +y0 through y(t) = −y0 back to y(t) = +y0.
- The time it takes a point on the slinky to go from maximum displacement y(x,t) = y1 through y(x,t) = −y1 back to y(x,t) = y1.
Homework Answers
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Select ALL the correct definitions of the period of a
standing wave.
E.g., if A and...
Select ALL the correct definitions of the PERIOD of a standing wave. E.g., if B and...
Select ALL the correct definitions of the PERIOD of a standing wave. E.g., if B and D are true and the rest are false, enter BD. A) The time for an antinode to go from y(t) = +y0 to y(t) = −y0. B) The time for n complete oscillations divided by n. C) The time it takes an antinode to go from y(t) = +y0 through y(t) = −y0 back to y(t) = +y0. D) The time it takes a...
4. [2pt] Select ALL the correct definitions of the wavelength of a standing wave. E.g., if...
4. [2pt] Select ALL the correct definitions of the wavelength of a standing wave. E.g., if A and B are true and the rest are false, enter AB. The distance along the standing wave (in the direction of propagation) between repetitions of the wave shape. The distance along the standing wave (in the direction of propagation) from one node to the next node. The distance (in the direction of propagation) between adjacent crests. The distance (in the direction of propagation)...
The following two waves are sent in opposite directions on a horizontal string so as to create a standing wave in a ver...
The following two waves are sent in opposite directions on a horizontal string so as to create a standing wave in a vertical plane y1(x, t) = (6.30 mm) sin(6.50TX . 420 Y2(x, t) (6.30 mm) sin(650TX + 42urt), with x in meters and t in seconds. An anitinode is located at point A. In the time interval that point takes to move from maximum upward displacement to maximum downward displacement, how far does each wave move along the string?...
Adjacent antinodes of a standing wave of a string are 20.0 cm apart. A particle at...
Adjacent antinodes of a standing wave of a string are 20.0 cm apart. A particle at an antinode oscillates in simple harmonic motion with amplitude 0.600 cm and period 0.100 s. The string lies along the +x-axis and its left end is fixed at x = 0. The string is 70.0 cm long. At time t = 0, the first antinode is at maximum positive displacement. a. Is the right end of the string fixed or free? Explain. b. Sketch...
Problem A long string is fixed at one end and a standing wave is generated with...
Problem A long string is fixed at one end and a standing wave is generated with a mechanical oscillator attached at one end. The opposite end of the string can be considered as a node, and treat it as the x = 0 point. The distance between adjacent nodes on the string is 20.0 cm, and an antinode oscillates with a period of 0.659 s and an amplitude of 0.550 cm. (a) Find the displacement of a point on the...
Indicate true or false in each of the following statements: A standing wave is the superposition...
Indicate true or false in each of the following statements: A standing wave is the superposition of two waves The beating of two waves can be heard as a much higher frequency than the sum of the two frequencies. The second harmonic is twice times the frequency of the fundamental. Constructive interference occurs when the phase difference of two otherwise identical waves is 2π or multiples thereof. A node is a position on a standing wave of maximum displacement
5. (8 pints) A String that lies along the +x- axis has a free en incident wave at)-Acos(lox + t) is reflected at th...
5. (8 pints) A String that lies along the +x- axis has a free en incident wave at)-Acos(lox + t) is reflected at the en (1) (2 points) Judge that end (x 0) (2) (4 points) Write down the standing wave function y (3) (2 points) Find th of the string. d at x=0 . An x=0 the standing wave has an antinode or a node at its free function y(x,tl) along the +x-axis. imum speed of the free end...
12. A longitudinal standing wave can be created in a long, thin aluminum rod by stroking...
12. A longitudinal standing wave can be created in a long, thin aluminum rod by stroking the rod with very dry fingers. This is often done as a physics demonstration, creating a high-pitched, very annoying whine. From a wave perspective, the standing wave is equivalent to a sound standing wave in an open-open tube. In particular, both ends of the rod are anti-nodes. What is the fundamental frequency of a 2.50 m -long aluminum rod? The speed of sound in...
For a certain transverse standing wave on a long string, an antinode is at x -0...
For a certain transverse standing wave on a long string, an antinode is at x -0 and an adjacent node is atx0.30 m. The displacement y(t) of the string particle at x0 is shown in the figure, where the scale of the y axis is set by ys = 4.4 cm, when t = 0.50 s, what is the displacement of the string particle at (a) x = 0.50 m and (b) x = 0.40 m ? what is the...
The wave function for a standing wave on a string is described by y(x, t) =...
The wave function for a standing wave on a string is described by y(x, t) = 0.023 sin(4x) cos (591), where y and x are in meters and t is in seconds. Determine the maximum displacement and maximum speed of a point on the string at the following positions. (a) x = 0.10 m Ymax = Vmax = m/s m (b) x = 0.25 m Vmax = Vmax = m m/s (c) x = 0.30 m Ymax = m Vmax...
The following two waves are sent in opposite directions on a horizontal string so as to create a standing wave in a vertical plane y1(x, t) = (6.30 mm) sin(6.50TX . 420 Y2(x, t) (6.30 mm) sin(650TX + 42urt), with x in meters and t in seconds. An anitinode is located at point A. In the time interval that point takes to move from maximum upward displacement to maximum downward displacement, how far does each wave move along the string?...
Problem A long string is fixed at one end and a standing wave is generated with a mechanical oscillator attached at one end. The opposite end of the string can be considered as a node, and treat it as the x = 0 point. The distance between adjacent nodes on the string is 20.0 cm, and an antinode oscillates with a period of 0.659 s and an amplitude of 0.550 cm. (a) Find the displacement of a point on the...
5. (8 pints) A String that lies along the +x- axis has a free en incident wave at)-Acos(lox + t) is reflected at the en (1) (2 points) Judge that end (x 0) (2) (4 points) Write down the standing wave function y (3) (2 points) Find th of the string. d at x=0 . An x=0 the standing wave has an antinode or a node at its free function y(x,tl) along the +x-axis. imum speed of the free end...
For a certain transverse standing wave on a long string, an antinode is at x -0 and an adjacent node is atx0.30 m. The displacement y(t) of the string particle at x0 is shown in the figure, where the scale of the y axis is set by ys = 4.4 cm, when t = 0.50 s, what is the displacement of the string particle at (a) x = 0.50 m and (b) x = 0.40 m ? what is the...
The wave function for a standing wave on a string is described by y(x, t) = 0.023 sin(4x) cos (591), where y and x are in meters and t is in seconds. Determine the maximum displacement and maximum speed of a point on the string at the following positions. (a) x = 0.10 m Ymax = Vmax = m/s m (b) x = 0.25 m Vmax = Vmax = m m/s (c) x = 0.30 m Ymax = m Vmax...
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