Estimate frequency of vibration of your arm. Let the length of the arm be 0.61 m....
Estimate frequency of vibration of your arm. Let the length of the arm be 0.61 m. Consider the arm as a simple pendulum and assume its center of mass is about 2/3 its length from the shoulder.
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Estimate frequency of vibration of your arm. Let the length of
the arm be 0.61 m....
The angular frequency ω of a simple pendulum with mass m and center-of-mass length L is...
The angular frequency ω of a simple pendulum with mass m and center-of-mass length L is calculated as what?
A compound pendulum is made up of a rod of length L, with mass M and...
A compound pendulum is made up of a rod of length L, with mass M and a solid sphere of radius r, with mass m (see figure below). The pendulum is pivoted about one end and released from rest from and angle of 0, (angle with the vertical). (a) Find the distance, dom, of center of mass of this pendulum from its pivot. (b) Draw a free body diagram and write down Newton's 2nd Law (for rotation) for the pendulum...
A pendulum of length L and mass M has a spring of force constant k connected to it at a distance h bel...
A pendulum of length
L
and mass
M
has a spring of force constant
k
connected to it at a distance
h
below its point of suspension (as shown in the following figure).
Find the frequency of vibration of the system for small values of
the amplitude (small
?).
Assume that the vertical suspension of length
L
is rigid, but ignore its mass. (Use any variable or symbol stated
above along with the following as necessary:
g
and
?.)
f...
A pendulum of length L and mass M has a spring of force constant k connected to it at a distance h bel...
A pendulum of length
L
and mass
M
has a spring of force constant
k
connected to it at a distance
h
below its point of suspension (as shown in the following figure).
Find the frequency of vibration of the system for small values of
the amplitude (small
?).
Assume that the vertical suspension of length
L
is rigid, but ignore its mass. (Use any variable or symbol stated
above along with the following as necessary:
g
and
?.)
f...
3. The figure shows an outstretched arm with a mass of 4.2 kg. The arm is...
3. The figure shows an outstretched arm with a mass of 4.2 kg. The arm is 56 cm long, and its center of gravity is 21 cm from the shoulder. The hand at the end of the arm hold a mass of 6.0 kg. (a) What is the torque about the shoulder due to the weights of the arm and the 6.0 kg mass? (b) If the arm is held in position by the deltoid muscle, whose force on the...
A pendulum of length L and mass M has a spring of force constant k connected to it at a distance h below its point of...
A pendulum of length L and mass M has a spring
of force constant k connected to it at a distance h below
its point of suspension (Fig. P15.59). Find the frequency of
vibration of the system for small values of the amplitude (small
). Assume the
vertical suspension of length L is rigid, but ignore its
mass.
1. A pendulum of length L and mass M has a spring of force constant k...
1. A pendulum of length L and mass M has a spring of force constant k connected to it at a distance I below its point of suspension, Assume that the vertical suspension is rigid and that both the vertical suspension and spring are mansless (a) What is the frequency of vibration of the system for small values of the amplitude (small 0)? (b) If the pendulum is displaced by Omar and then released from rest, what is its kinetic...
A "seconds pendulum" is one that moves through its equilibrium position once each second. (The period...
A "seconds pendulum" is one that moves through its equilibrium position once each second. (The period of the pendulum is precisely 2s. The length of a seconds pendulum is 0.992 7 m at Tokyo, Japan, and 0.994 2 m at Cambridge, England. What is the ratio of the free-fall accelerations at these two locations? A simple pendulum makes 120 complete oscillations in 3.00 min at a location where g = 9.80 m/s^2. Find (a) the period of the pendulum and...
The length of a simple pendulum is 0.66 m, the pendulum bob has a mass of...
The length of a simple
pendulum is 0.66 m, the pendulum bob has a mass of 305 grams, and
it is released at an angle of 11° to the vertical. (a) With what
frequency does it vibrate? Assume SHM. Hz (b) What is the pendulum
bob's speed when it passes through the lowest point of the swing?
m/s (c) What is the total energy stored in this oscillation,
assuming no losses? J
My Notes Ask Your Teacher 8. -13 points...
A flat, rigid object oscillates as a physical pendulum in simple harmonic motion with a frequency...
A flat, rigid object oscillates as a physical pendulum in simple harmonic motion with a frequency f. The mass of the pendulum is m, and the pivot point is a distance d from the center of mass. What is the moment of inertia of the pendulum about its pivot point? (Use any variable or symbol stated above along with the following as necessary: g.)
A compound pendulum is made up of a rod of length L, with mass M and a solid sphere of radius r, with mass m (see figure below). The pendulum is pivoted about one end and released from rest from and angle of 0, (angle with the vertical). (a) Find the distance, dom, of center of mass of this pendulum from its pivot. (b) Draw a free body diagram and write down Newton's 2nd Law (for rotation) for the pendulum...
A pendulum of length
L
and mass
M
has a spring of force constant
k
connected to it at a distance
h
below its point of suspension (as shown in the following figure).
Find the frequency of vibration of the system for small values of
the amplitude (small
?).
Assume that the vertical suspension of length
L
is rigid, but ignore its mass. (Use any variable or symbol stated
above along with the following as necessary:
g
and
?.)
f...
A pendulum of length
L
and mass
M
has a spring of force constant
k
connected to it at a distance
h
below its point of suspension (as shown in the following figure).
Find the frequency of vibration of the system for small values of
the amplitude (small
?).
Assume that the vertical suspension of length
L
is rigid, but ignore its mass. (Use any variable or symbol stated
above along with the following as necessary:
g
and
?.)
f...
3. The figure shows an outstretched arm with a mass of 4.2 kg. The arm is 56 cm long, and its center of gravity is 21 cm from the shoulder. The hand at the end of the arm hold a mass of 6.0 kg. (a) What is the torque about the shoulder due to the weights of the arm and the 6.0 kg mass? (b) If the arm is held in position by the deltoid muscle, whose force on the...
A pendulum of length L and mass M has a spring
of force constant k connected to it at a distance h below
its point of suspension (Fig. P15.59). Find the frequency of
vibration of the system for small values of the amplitude (small
). Assume the
vertical suspension of length L is rigid, but ignore its
mass.
1. A pendulum of length L and mass M has a spring of force constant k connected to it at a distance I below its point of suspension, Assume that the vertical suspension is rigid and that both the vertical suspension and spring are mansless (a) What is the frequency of vibration of the system for small values of the amplitude (small 0)? (b) If the pendulum is displaced by Omar and then released from rest, what is its kinetic...
A "seconds pendulum" is one that moves through its equilibrium position once each second. (The period of the pendulum is precisely 2s. The length of a seconds pendulum is 0.992 7 m at Tokyo, Japan, and 0.994 2 m at Cambridge, England. What is the ratio of the free-fall accelerations at these two locations? A simple pendulum makes 120 complete oscillations in 3.00 min at a location where g = 9.80 m/s^2. Find (a) the period of the pendulum and...
The length of a simple
pendulum is 0.66 m, the pendulum bob has a mass of 305 grams, and
it is released at an angle of 11° to the vertical. (a) With what
frequency does it vibrate? Assume SHM. Hz (b) What is the pendulum
bob's speed when it passes through the lowest point of the swing?
m/s (c) What is the total energy stored in this oscillation,
assuming no losses? J
My Notes Ask Your Teacher 8. -13 points...
A flat, rigid object oscillates as a physical pendulum in simple harmonic motion with a frequency f. The mass of the pendulum is m, and the pivot point is a distance d from the center of mass. What is the moment of inertia of the pendulum about its pivot point? (Use any variable or symbol stated above along with the following as necessary: g.)
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