Assume a person bends forward to lift a load “with his back” as shown in Figure P12.34a. The spine pivots mainly at the fifth lumbar vertebra, with the principal supporting force provided by the erector spinalis muscle in the back. To see the magnitude of the forces involved, consider the model shown in Figure P12.34b for a person bending forward to lift a 200-N object. The spine and upper body are represented as a uniform horizontal rod of weight 350 N, pivoted at the base of the spine. The erector spinalis muscle, attached at a point two-thirds of the way up the spine, maintains the position of the back. The angle between the spine and this muscle is θ = 12.0°. Find (a) the tension T in the back muscle and (b) the compressional force in the spine.

Figure P12.34

When you bend over, a series of large muscles, the erector spinae, pull on your spine to hold you up. The figure shows a simplified model of the spine as a rod of length L that pivots at its lower end. In this model, the center of gravity of the 360N weight of the upper torso is at the center of the spine. The 170N weight of the head and arms acts at the top of the spine. The erector spinae muscles are modeled as a single muscle that acts at an 12❝ angle to the spine. Suppose the person in the figure bends over to an angle of 30❝ from the horizontal.

a. What is the tension in the erector muscle?

b. A force from the pelvic girdle acts on the base of the spine. What is the component of this force in the direction of the spine? (This large force is the cause of many back injuries).

When you bend over, a series of large muscles, the erector spinal, pull on your spine to hold you up. (Figure 1) shows a simplified model of the spine as a rod of length L that pivots at its lower end. In this model, the centre of gravity of the 310N weight of the upper torso is at the centre of the spine. The 155N weight of the head and arms acts at the top of the spine. The erector spinal muscles are modelled as a single muscle that acts at an angle To the spine. Suppose the person in (Figure 1) bends over to an angle of  From the horizontal.

What is the tension in the erector muscle? Hint: Align your x-axis with the axis of the spine.

i don't have a way to show the picture but for this question there is a picture of man bent over at the waist picking up a weight from off the floor. The weight appears to be a few inches off the ground. Where the waist bends is labeled pivot. His back muscle is also labeled. Here is the question, A person bends over and lifts a 200-N weight with his back horizontal. The muscle that attaches two thirds of the way up the spine maintains the position of the back; the angle between the spine and the muscle is 12 degrees. Taking the weight of the upper body to be 350N, find the tension in the back muscle and the compressional force in the spine. I know that one of the answers should be 2705.4755 and that the eq. for torque is used but i am not completely sure how to work this problem out. Thanks for the help.