Consider a transverse harmonic wave travelling on a string. Enter true (T) or false (F) for...
Consider a transverse harmonic wave travelling on a string. Enter true (T) or false (F) for the following statements. For example, if the first statement is true and the rest false, enter TFF. You have 4 tries.
- Decreasing the tension in the string decreases the phase speed.
- Decreasing the mass density of the string decreases the phase speed.
- When the amplitude of the wave is decreased, the phase speed decreases.
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Consider a transverse harmonic wave travelling on a string.
Enter true (T) or false (F) for...
Consider a transverse harmonic wave travelling along a string. Enter true (T) or false (F) for the following statements....
Consider a transverse harmonic wave travelling along a string. Enter true (T) or false (F) for the following statements. For example, if the first statement is true and the rest false, enter TFF. You have 4 tries. Increasing the frequency of the wave increases its wavelength. Increasing the amplitude of the wave increases its wavelength. If a wave with a frequency of 10 Hz travels along a string with a mass per unit length of 40 g/m stretched to a...
3. [1pt] Consider the phase speed of transverse waves on a wire, with the changes listed...
3. [1pt] Consider the phase speed of transverse waves on a wire, with the changes listed below. Answer `true' (T), `false' (F), or `cannot tell' (C) to each of the five statements. E.g., if the answer to the first statement is T and to the rest, F, enter TFFFF. If the tension in the wire is doubled, the phase speed of the transverse wave doubles. If the tension is increased and the mass of the wire is decreased (assuming the...
A sinusoidal transverse wave is travelling along a string in the negative direction of an x...
A sinusoidal transverse wave is travelling along a string in the negative direction of an x axis. The figure shows a plot of the displacement as a function of position at time t = 0; the y intercept is 4.0 cm. The string tension is 3.3 N, and its linear density is 44 g/m. Find the (a) amplitude, (b) wavelength, (c) wave speed, and (d) period of the wave, (e) Find the maximum transverse speed of a particle in the...
A transverse travelling wave is created on a long string that has linear mass density 0.0295...
A transverse travelling wave is created on a long string that has linear mass density 0.0295 kg/m and is under 4.25 N of tension. On the graph below, the solid curve shows its position at times zero and the dashed curve shows its position 0.021 s later. Determine the following: Amplitude Wavelength Wave speed Frequency Period
1. [1pt] Answer true (T) or false (F) to the following state- ments; e.g., enter FFF....
1. [1pt] Answer true (T) or false (F) to the following state- ments; e.g., enter FFF. Don't guess! On an exam you may be asked to explain your reasoning. i) The wavelength of a standing wave is equal to the wave- lengths of the two travelling waves required to form it, for all harmonic numbers. decreases as the harmonic number is increased. number is increased. ii) The speed of a particle on an antinode of a standing wave ili) The...
1. [1pt] Answer true (T) or false (F) to the following state- ments; e.g., enter FFF....
1. [1pt] Answer true (T) or false (F) to the following state- ments; e.g., enter FFF. Don't guess! On an exam you may be asked to explain your reasoning. i) The wavelength of a standing wave is equal to the wave- lengths of the two travelling waves required to form it, for all harmonic numbers. decreases as the harmonic number is increased. number is increased. ii) The speed of a particle on an antinode of a standing wave iii) The...
True or false: Clearly write whether the statement is true or false in the blank. Write...
True or false: Clearly write whether the statement is true or false in the blank. Write a brief explanation for the reasoning used to arrive at your answer in the space provided, 1 point each. 1) A transverse mechanical wave passes through a material. This is a transverse wave if portions of the material undergo simple harmonic motion in the direction of the wave's motion Answer 2) Two longitudinal waves with different amplitudes are observed. The wave with the greatest...
1. [1pt] The following formula represents the transverse displacement from equilibrium of a particle on a...
1. [1pt] The following formula represents the transverse displacement from equilibrium of a particle on a string, y(x,t) = 3.5 cos(3x+36t), where x is measured in meters, y in centimeters, and t in seconds. Select the correct answer for each of the statements below from T (true), F (false), G (greater than), L (less than), or E (equal to). For example, if the first statement is true, and the others should be completed with “equal to”, enter TEEE. You only...
Indicate true or false in each of the following statements: Transverse waves oscillate parallel to the...
Indicate true or false in each of the following statements: Transverse waves oscillate parallel to the wave velocity. Frequency is inversely proportional to wavelength, wave speed constant. The intensity of sound from a point source decreases as a square of the distance from the source. Sound waves are mechanical waves. The speed of sound on a string is proportional to the tension in the string.
Problem 8 a) A transverse sinusoidal wave on a string has a period T-25.2ms and travels...
Problem 8 a) A transverse sinusoidal wave on a string has a period T-25.2ms and travels in the negative x direction with a speed of 30.9ms. At 0, a particle on the string atx 0 has a displacement of 2.00cm and travels downward with a speed of 1.85m/s. What is the amplitude of the wave? Submit Answer Tries 0/6 b) What is the initial phase angle? (Give the value in the range 0 to π) Submit Answer Tries 0/6 c)...
A sinusoidal transverse wave is travelling along a string in the negative direction of an x axis. The figure shows a plot of the displacement as a function of position at time t = 0; the y intercept is 4.0 cm. The string tension is 3.3 N, and its linear density is 44 g/m. Find the (a) amplitude, (b) wavelength, (c) wave speed, and (d) period of the wave, (e) Find the maximum transverse speed of a particle in the...
A transverse travelling wave is created on a long string that has linear mass density 0.0295 kg/m and is under 4.25 N of tension. On the graph below, the solid curve shows its position at times zero and the dashed curve shows its position 0.021 s later. Determine the following: Amplitude Wavelength Wave speed Frequency Period
1. [1pt] Answer true (T) or false (F) to the following state- ments; e.g., enter FFF. Don't guess! On an exam you may be asked to explain your reasoning. i) The wavelength of a standing wave is equal to the wave- lengths of the two travelling waves required to form it, for all harmonic numbers. decreases as the harmonic number is increased. number is increased. ii) The speed of a particle on an antinode of a standing wave ili) The...
1. [1pt] Answer true (T) or false (F) to the following state- ments; e.g., enter FFF. Don't guess! On an exam you may be asked to explain your reasoning. i) The wavelength of a standing wave is equal to the wave- lengths of the two travelling waves required to form it, for all harmonic numbers. decreases as the harmonic number is increased. number is increased. ii) The speed of a particle on an antinode of a standing wave iii) The...
True or false: Clearly write whether the statement is true or false in the blank. Write a brief explanation for the reasoning used to arrive at your answer in the space provided, 1 point each. 1) A transverse mechanical wave passes through a material. This is a transverse wave if portions of the material undergo simple harmonic motion in the direction of the wave's motion Answer 2) Two longitudinal waves with different amplitudes are observed. The wave with the greatest...
Problem 8 a) A transverse sinusoidal wave on a string has a period T-25.2ms and travels in the negative x direction with a speed of 30.9ms. At 0, a particle on the string atx 0 has a displacement of 2.00cm and travels downward with a speed of 1.85m/s. What is the amplitude of the wave? Submit Answer Tries 0/6 b) What is the initial phase angle? (Give the value in the range 0 to π) Submit Answer Tries 0/6 c)...
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