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D Question 7 1 pts How many nodes and antinodes are shown in the standing wave...
Adjacent antinodes of a standing wave on a string are 15.0 cm apart. A particle at...
Adjacent antinodes of a standing wave on a string are 15.0 cm apart. A particle at an antinode oscillates in simple harmonic motion with amplitude 0.850 cm and period 0.0750 s. The string lies along the +x-axis and is fixed at x = 0. (a) How far apart are the adjacent nodes? (b) What are the wavelength, amplitude, and speed of the two traveling waves that form this pattern? (c) Find the maximum and minimum transverse speeds of a point...
Problem 1 [30 pts): Two waves travelling in opposite directions produce a standing wave. The individual...
Problem 1 [30 pts): Two waves travelling in opposite directions produce a standing wave. The individual wave functions are: b = 6sin(4x - 5t) 42 = 6sin(4x + 5t) where x and y are measured in m and t in s. a) (10 pts] Find the amplitude of the simple harmonic motion of the element of the medium located at x = 2.7 m. b) (20 pts) Find the positions of the first three nodes and antinodes if one end...
A mass-spring system oscillates with an amplitude of 10 cm. If the force constant of the...
A mass-spring system oscillates with an amplitude of 10 cm. If the force constant of the spring of 315 N/m and the mass is 0.8 kg, what is the magnitude of the maximum acceleration of the mass in m/s2? Enter a number with one digit behind the decimal point.
Question 13 4 pts If a standing wave on a string of length, L, shows four...
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
please show all work. need help with question c,d,e Name Problem 3 A standing wave is setup c 1 a string at the third harmonic (n-3), as seen in the figure. The length of the s ring is 0.350 m, th...
please show all work. need help with question
c,d,e
Name Problem 3 A standing wave is setup c 1 a string at the third harmonic (n-3), as seen in the figure. The length of the s ring is 0.350 m, the tension in the string is 2.44 N and the mass per unit lengtl is 0.100 kg/m. (5 Points)/ a) What is the wavelength a ad frequency fof the standing wave? 5 points)b) If the amplitude of the v ave...
1. How many wavelengths are shown in the standing wave pattern pictured below? 2. If the...
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...
can someone please help with b,c,d,e. Please show all work. Problems A standing wave s setup...
can someone please help with b,c,d,e. Please show all
work.
Problems A standing wave s setup c 1 a string at the third harmonic (n-3), as seen in the figure. The length of the s ring is l 0.350 m, the tension in the string is 2.44 N and the mass per unit lengti is 0.100 kg/m. (5 Points) a) What is the wavelength i nd frequency fof the standing wave? (5 points) /b) If the amplitude of the v...
PLEASE SHOW ALL WORK. U Question 13 O pts 1) The bulk modulus of water is...
PLEASE SHOW ALL WORK.
U Question 13 O pts 1) The bulk modulus of water is 2.2 x 10° Pa 22 x 10 N/m?). By how much does a cubic meter (10mof water decrease in volume when it is taken from the surface of the ocean down to a depth of 1.0 km, where the pressure is 98 10Pa greater than at the surface? II) A 0.250 kg object attached to a spring oscillates on a frictionless horizontal table with...
6&7 please A tube open at one end produces a standing wave with a fundamental frequency...
6&7 please
A tube open at one end produces a standing wave with a fundamental frequency of 625 Hz when the temperature is -10.0°C, what is the length of the tube, in meters? b) If we wanted to produce a standing wave with the same fundamental frequency in a string with a length of 1.30 m and a mass of 4.00 g, what would be the tension in the string, in Newtons? Do not include units in your answers. a)...
I need help with the 3,5,7 harmonics part of the question Resonance Pre-Lab Assignment (1 point)...
I need help with the 3,5,7 harmonics part of the question
Resonance Pre-Lab Assignment (1 point) Recall from the "Introduction to Waves" lab that it was easy to calculate the harmonic number (n) and wavelength (A) of standing waves on a string by counting the number of antinodes (n -21/n). That was a system with nodes fixed at the end points. Today you will be working with a system that has one open end and one closed end (i.e. a...
Adjacent antinodes of a standing wave on a string are 15.0 cm apart. A particle at an antinode oscillates in simple harmonic motion with amplitude 0.850 cm and period 0.0750 s. The string lies along the +x-axis and is fixed at x = 0. (a) How far apart are the adjacent nodes? (b) What are the wavelength, amplitude, and speed of the two traveling waves that form this pattern? (c) Find the maximum and minimum transverse speeds of a point...
Problem 1 [30 pts): Two waves travelling in opposite directions produce a standing wave. The individual wave functions are: b = 6sin(4x - 5t) 42 = 6sin(4x + 5t) where x and y are measured in m and t in s. a) (10 pts] Find the amplitude of the simple harmonic motion of the element of the medium located at x = 2.7 m. b) (20 pts) Find the positions of the first three nodes and antinodes if one end...
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
please show all work. need help with question
c,d,e
Name Problem 3 A standing wave is setup c 1 a string at the third harmonic (n-3), as seen in the figure. The length of the s ring is 0.350 m, the tension in the string is 2.44 N and the mass per unit lengtl is 0.100 kg/m. (5 Points)/ a) What is the wavelength a ad frequency fof the standing wave? 5 points)b) If the amplitude of the v ave...
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...
can someone please help with b,c,d,e. Please show all
work.
Problems A standing wave s setup c 1 a string at the third harmonic (n-3), as seen in the figure. The length of the s ring is l 0.350 m, the tension in the string is 2.44 N and the mass per unit lengti is 0.100 kg/m. (5 Points) a) What is the wavelength i nd frequency fof the standing wave? (5 points) /b) If the amplitude of the v...
PLEASE SHOW ALL WORK.
U Question 13 O pts 1) The bulk modulus of water is 2.2 x 10° Pa 22 x 10 N/m?). By how much does a cubic meter (10mof water decrease in volume when it is taken from the surface of the ocean down to a depth of 1.0 km, where the pressure is 98 10Pa greater than at the surface? II) A 0.250 kg object attached to a spring oscillates on a frictionless horizontal table with...
6&7 please
A tube open at one end produces a standing wave with a fundamental frequency of 625 Hz when the temperature is -10.0°C, what is the length of the tube, in meters? b) If we wanted to produce a standing wave with the same fundamental frequency in a string with a length of 1.30 m and a mass of 4.00 g, what would be the tension in the string, in Newtons? Do not include units in your answers. a)...
I need help with the 3,5,7 harmonics part of the question
Resonance Pre-Lab Assignment (1 point) Recall from the "Introduction to Waves" lab that it was easy to calculate the harmonic number (n) and wavelength (A) of standing waves on a string by counting the number of antinodes (n -21/n). That was a system with nodes fixed at the end points. Today you will be working with a system that has one open end and one closed end (i.e. a...
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