In the arrangement shown below, an object can be hung from a string (with linear mass...
In the arrangement shown below, an object can be hung from a string (with linear mass density μ = 0.002 00 kg/m) that passes over a light pulley. The string is connected to a vibrator (of constant frequency f), and the length of the string between point P and the pulley is L = 2.30 m. When the mass m of the object is either 9.0 kg or 16.0 kg, standing waves are observed; no standing waves are observed with any mass between these values, however.
(a) What is the frequency of the vibrator? (Note: The
greater the tension in the string, the smaller the number of nodes
in the standing wave.)
(b) What is the largest object mass for which standing waves could
be observed?
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In the arrangement shown below, an object can be hung from a
string (with linear mass...
parts c and d please steps would be helpful in the arrangement shown below, an object...
parts c and d please steps would be helpful
in the arrangement shown below, an object can be hung from a sting with linear mass density μ 0.00200 kg m that passes over a light pulley. The string is connected to a vibrator of constant frequency and the length of the string between polnt P and the pulley Iis L 1.90 m. When the mass m of the object is elther 25.0 ka or 36.0 kg, standing waves are observed;...
(d) For what values of m (in kg) would standing waves with the next four higher...
(d) For what values of m (in kg) would standing waves with the next four higher numbers of nodes be observed in this case? X kg kg x kg x kg 2 Enter a number ma=1 m = In the arrangement shown below, an object can be hung from a string (with linear mass density -0.00200 kg/m) that passes over a light pulley. The string is connected to a vibrator (of constant frequency and the length of the string between...
In the arrangement shown in the figure below, an object of mass m = 2.0 kg...
In the arrangement shown in the figure below, an object of mass
m = 2.0 kg hangs from a cord around a light pulley. The length of
the cord between point P and the pulley is L = 2.0 m. (Ignore the
mass of the vertical section of the cord.)
(a) When the vibrator is set to a frequency of 140 Hz, a
standing wave with six loops is formed. What must be the linear
mass density of the cord?...
2. A string of mass 3.25g is measured to have a length of 3.000m. If a...
2. A string of mass 3.25g is measured to have a length of 3.000m. If a mass of 750g is hung off of this string what is the speed of waves traveling on this string? Show your work. . Suppose the string of question 2 is used in a run in this experiment. The length of string between the string vibrator and pulley is measured to be 1.120m. When 750g are hung off of this string, 5 nodes are seen...
In the arrangement shown in the figure below, an object of mass m4.0 kg hangs from...
In the arrangement shown in the figure below, an object of mass m4.0 kg hangs from a cord around a light pulley. The length of the cord between point P and the pulley is L 2.0 m. (Ignore the mass of the vertical section of the cord.) Vibrator (a) When the vibrator is set to a frequency of 180 Hz, a standing wave with six loops is formed. what must be the linear mass density of the cond?" kg/m (b)...
I have questions 2-4 but I am confused on question 5 string what is the speed...
I have questions 2-4 but I am confused on question 5
string what is the speed of waves traveling on this string? Show your work. Thu veloit ve(ouiry in Shing undir tenion 3.25 10 m V82.4 mlS 3. Suppose the string of question 2 is used in a run in this experiment. The length of string between the string vibrator and pulley is measured to be 1.120m. When 750g are hung off of this string, 5 nodes are seen between...
In the arrangement shown in the figure below, an object of mass m =4.00 kg hangs...
In the arrangement shown in the figure below,
an object of mass m =4.00 kg hangs from a cord around a
light pulley. The length of the cord between point
P and the pulley is
L = 2.00 m. (Ignore the
mass of the vertical section of the cord.)
(a) When the vibrator is set to a frequency
of 166 Hz, a standing wave with six loops is formed. What must be
the linear mass density of the cord?
kg/m...
One end of horizontal string of linear density kg/m is attached to a small amplitude 60-Hz vibrator....
One end of horizontal string of linear density kg/m is attached to a small amplitude 60-Hz vibrator. The string passes over a pulley, a distance 1.40 m away and weights are hung from this end. What mass must be hung from this end of the string to produce (a) one loop, (b) two loops, (c) five loops of a standing wave. Assume that the end of the string with the vibrator is a node, which is nearly true. (d) Why can the...
Name: - Harmonics Worksheet Wave on a String One end of a string with a linear...
Name: - Harmonics Worksheet Wave on a String One end of a string with a linear mass density of 1.45 . 10-2 kg/m is tied to a mechanical vibrator that can oscillate up and down. The other end hangs over a pulley 80 cm away. The mass hanging from the free end is 3 kg. The left end is oscillated up and down, which will create a standing wave pattern at certain frequencies. Draw the first five standing wave patterns...
parts c and d please steps would be helpful
in the arrangement shown below, an object can be hung from a sting with linear mass density μ 0.00200 kg m that passes over a light pulley. The string is connected to a vibrator of constant frequency and the length of the string between polnt P and the pulley Iis L 1.90 m. When the mass m of the object is elther 25.0 ka or 36.0 kg, standing waves are observed;...
(d) For what values of m (in kg) would standing waves with the next four higher numbers of nodes be observed in this case? X kg kg x kg x kg 2 Enter a number ma=1 m = In the arrangement shown below, an object can be hung from a string (with linear mass density -0.00200 kg/m) that passes over a light pulley. The string is connected to a vibrator (of constant frequency and the length of the string between...
In the arrangement shown in the figure below, an object of mass
m = 2.0 kg hangs from a cord around a light pulley. The length of
the cord between point P and the pulley is L = 2.0 m. (Ignore the
mass of the vertical section of the cord.)
(a) When the vibrator is set to a frequency of 140 Hz, a
standing wave with six loops is formed. What must be the linear
mass density of the cord?...
2. A string of mass 3.25g is measured to have a length of 3.000m. If a mass of 750g is hung off of this string what is the speed of waves traveling on this string? Show your work. . Suppose the string of question 2 is used in a run in this experiment. The length of string between the string vibrator and pulley is measured to be 1.120m. When 750g are hung off of this string, 5 nodes are seen...
In the arrangement shown in the figure below, an object of mass m4.0 kg hangs from a cord around a light pulley. The length of the cord between point P and the pulley is L 2.0 m. (Ignore the mass of the vertical section of the cord.) Vibrator (a) When the vibrator is set to a frequency of 180 Hz, a standing wave with six loops is formed. what must be the linear mass density of the cond?" kg/m (b)...
I have questions 2-4 but I am confused on question 5
string what is the speed of waves traveling on this string? Show your work. Thu veloit ve(ouiry in Shing undir tenion 3.25 10 m V82.4 mlS 3. Suppose the string of question 2 is used in a run in this experiment. The length of string between the string vibrator and pulley is measured to be 1.120m. When 750g are hung off of this string, 5 nodes are seen between...
In the arrangement shown in the figure below,
an object of mass m =4.00 kg hangs from a cord around a
light pulley. The length of the cord between point
P and the pulley is
L = 2.00 m. (Ignore the
mass of the vertical section of the cord.)
(a) When the vibrator is set to a frequency
of 166 Hz, a standing wave with six loops is formed. What must be
the linear mass density of the cord?
kg/m...
Name: - Harmonics Worksheet Wave on a String One end of a string with a linear mass density of 1.45 . 10-2 kg/m is tied to a mechanical vibrator that can oscillate up and down. The other end hangs over a pulley 80 cm away. The mass hanging from the free end is 3 kg. The left end is oscillated up and down, which will create a standing wave pattern at certain frequencies. Draw the first five standing wave patterns...
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