5. The homogenous beam, length L = 4.00 m and weight of 100 N supports a 300 N block (see Figure 3). A cord attached to the wall and the beam has maximum tensile 400 N make an angle 0 = 30.0° to the beam. a. If x is the distance between the block center of mass with the TPM wall, find the maximum x before the cord breaks.
5. The homogenous beam, length L = 4.00 m and weight of 100 N supports a 300 N block (see Figure 3). A cord attached to the wall and the beam has maximum tensile 400 N make an angle 0 = 30.0° to the beam. a. If x is the distance between the block center of mass with the TPM wall, find the maximum x before the cord breaks.
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Transcribed Image Text:5. The homogenous beam, length L = 4.00 m and weight of 100 N
supports a 300 N block (see Figure 3). A cord attached to the wall
and the beam has maximum tensile 400 N make an angle 0 =
30.0° to the beam.
a. If x is the distance between the block center of mass with the
wall, find the maximum x before the cord breaks.
b. At the maximum x, find the horizontal component, and
c. The vertical component of the hinge (Point A).
TPM
B.
Figure 3
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