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The arm in the figure below weighs 44.5 N Ta L2 10.80. Determine the magnitude of...
The arm in Figure P8.18 weights 41.5N. The force of gravity acting on the arm acts...
The arm in Figure P8.18 weights 41.5N. The force of gravity acting on the arm acts through point A, Determine the magnitude of the tension force Ft in the deltoid muscle and the force Fs of the shoulder on the humerus (upper-arm bone) to hold the arm in the position shown. Apply the two conditions for equilibrium
The arm in the figure below weighs 36.0 N. The force of gravity acting on the...
The arm in the figure below weighs 36.0 N. The force of gravity acting on the arm acts through point A. Determine the magnitudes of the tension force F, in the deltoid muscle and the force F exerted by the shoulder on the humerus (upper-arm bone) to hold the arm in the position shown. (Enter your answers to at least the nearest newton.) x Your response is within 10% of the correct value. This may be due to roundoff error,...
The figure below shows a human arm that weighs 39.3 N. The arm is extended outward...
The figure below shows a human arm that weighs 39.3 N. The arm
is extended outward and is motionless. The gravitational force
Fg
on the arm acts at point A, a distance of 0.290 m from
the shoulder joint, which is represented by point O. The
shoulder pushes down and to the right on the humerus bone of the
arm with a force
Fs
at point O, at an angle θ as shown. The
deltoid muscle pulls back on the...
You are able to hold your arm in an outstretched position because of the deltoid muscle....
You are able to hold your arm in an outstretched position
because of the deltoid muscle. The force diagram for this is shown
below. Assume that the weight of the humerus is 8 lb (with a center
of gravity as shown), and that the deltoid muscle makes an angle of
α = 18 degrees to the humerus.
What is the magnitude of the tension in the deltoid muscle? What
is the magnitude of the force F at the joint?
Deltoid...
You are able to hold out your arm in an outstretched horizontal position because of the action of the deltoid muscle. A...
You are able to hold out your arm in an outstretched horizontal position because of the action of the deltoid muscle. Assume the humerus bone has a mass M1=3.6kg, length L=0.66m and its center of mass is a distance L1=0.33m from the scapula. (For this problem ignore the rest of the arm.) The deltoid muscle attaches to the humerus a distance L2=0.15m from the scapula. The deltoid muscle makes an angle of ?=17? with the horizontal, as shown. (Figure 1)...
Deltoid muscle Fig. 1a Problem #2.1 You are able to hold your arm in an outstretched...
Deltoid muscle Fig. 1a Problem #2.1 You are able to hold your arm in an outstretched position because of the deltoid muscle. The force diagram for this is shown in Fig. 1b. Use the equilibrium conditions to determine the tension T in the deltoid muscle needed to achieve this equilibrium, and the vertical and horizontal components of the force exerted by the scapula (shoulder blade)on the humerus. Assume the weight of the humerus is 36.0 N and the deltoid muscle...
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...
Part A is correct, but I cant figure out parts B or C You are able...
Part A is correct, but I cant
figure out parts B or C
You are able to hold your arm in an outstretched position because of the deltoid muscle. The force diagram for this is shown below. Assume that the weight of the humerus is 6 lb (with a center of gravity as shown), and that the deltoid muscle makes an angle of a - 15 degrees to the humerus. Deltoid muscle Humerus mg 1) What is the magnitude of...
A person lifts a dumbbell of weight Wd (see below). Their arm weighs Wa. The deltoid...
A person lifts a dumbbell of weight Wd (see below). Their arm weighs Wa. The deltoid muscle is attached to the arm at an angle as shown and supplies a force Fd. The freebody diagram below illustrates the distances where the various forces act on the arm. Write an expression for Fd in terms of Wa, wd, L1, L2, L3 and e. Write and expression for the total reaction force R that the shoulder joint applies to the left end...
The total mass of the arm shown in (Figure 1) is 3.5 kg . The location...
The total mass of the arm shown in (Figure 1) is 3.5 kg . The
location of the center of mass of the arm is shown, FM is the force
exerted by the deltoid muscle on the upper arm, and FJ is the
normal force from the shoulder joint on the upper arm.
Part A
Determine the magnitude of the force required from the deltoid
muscle to hold up the outstretched arm in the position shown.
Part B
Suppose this...
The arm in Figure P8.18 weights 41.5N. The force of gravity acting on the arm acts through point A, Determine the magnitude of the tension force Ft in the deltoid muscle and the force Fs of the shoulder on the humerus (upper-arm bone) to hold the arm in the position shown. Apply the two conditions for equilibrium
The arm in the figure below weighs 36.0 N. The force of gravity acting on the arm acts through point A. Determine the magnitudes of the tension force F, in the deltoid muscle and the force F exerted by the shoulder on the humerus (upper-arm bone) to hold the arm in the position shown. (Enter your answers to at least the nearest newton.) x Your response is within 10% of the correct value. This may be due to roundoff error,...
The figure below shows a human arm that weighs 39.3 N. The arm
is extended outward and is motionless. The gravitational force
Fg
on the arm acts at point A, a distance of 0.290 m from
the shoulder joint, which is represented by point O. The
shoulder pushes down and to the right on the humerus bone of the
arm with a force
Fs
at point O, at an angle θ as shown. The
deltoid muscle pulls back on the...
You are able to hold your arm in an outstretched position
because of the deltoid muscle. The force diagram for this is shown
below. Assume that the weight of the humerus is 8 lb (with a center
of gravity as shown), and that the deltoid muscle makes an angle of
α = 18 degrees to the humerus.
What is the magnitude of the tension in the deltoid muscle? What
is the magnitude of the force F at the joint?
Deltoid...
Deltoid muscle Fig. 1a Problem #2.1 You are able to hold your arm in an outstretched position because of the deltoid muscle. The force diagram for this is shown in Fig. 1b. Use the equilibrium conditions to determine the tension T in the deltoid muscle needed to achieve this equilibrium, and the vertical and horizontal components of the force exerted by the scapula (shoulder blade)on the humerus. Assume the weight of the humerus is 36.0 N and the deltoid muscle...
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...
Part A is correct, but I cant
figure out parts B or C
You are able to hold your arm in an outstretched position because of the deltoid muscle. The force diagram for this is shown below. Assume that the weight of the humerus is 6 lb (with a center of gravity as shown), and that the deltoid muscle makes an angle of a - 15 degrees to the humerus. Deltoid muscle Humerus mg 1) What is the magnitude of...
A person lifts a dumbbell of weight Wd (see below). Their arm weighs Wa. The deltoid muscle is attached to the arm at an angle as shown and supplies a force Fd. The freebody diagram below illustrates the distances where the various forces act on the arm. Write an expression for Fd in terms of Wa, wd, L1, L2, L3 and e. Write and expression for the total reaction force R that the shoulder joint applies to the left end...
The total mass of the arm shown in (Figure 1) is 3.5 kg . The
location of the center of mass of the arm is shown, FM is the force
exerted by the deltoid muscle on the upper arm, and FJ is the
normal force from the shoulder joint on the upper arm.
Part A
Determine the magnitude of the force required from the deltoid
muscle to hold up the outstretched arm in the position shown.
Part B
Suppose this...
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