In the beam depicted above, ?A is a fixed support. The magnitude of ?=365?/?W=365N/m, ?=60?P=60N and all lengths denoted by ?=1.5?a=1.5m. The system is in equilibrium. Using the given sign convention, answer the following questions. a) Calculate the vertical component of the external reaction at ?A in ???????Newtons. b) Calculate the horizontal component of the external reaction at ?A in ???????Newtons. c) Calculate the moment component of the external reaction at ?A in ??????Newton ??????metres.
In the beam depicted above, ?A is a fixed support. The magnitude of ?=365?/?W=365N/m, ?=60?P=60N and all lengths denoted by ?=1.5?a=1.5m. The system is in equilibrium. Using the given sign convention, answer the following questions.
a)
Calculate the vertical component of the external reaction at ?A in ???????Newtons.
b)
Calculate the horizontal component of the external reaction at ?A in ???????Newtons.
c)
Calculate the moment component of the external reaction at ?A in ??????Newton ??????metres.
d)
Calculate the shear force at point ?B in ???????Newtons.
e)
Calculate the bending moment at ?B in ??????Newton ??????metres.
f)
Calculate the shear force at point ?D in ???????Newtons.
g)
Calculate the bending moment (absolute value) at ?D in ??????Newton ??????metres.
h)
Calculate the shear force at point ?E in ???????Newtons.
i)
Calculate the bending moment at ?E in ??????Newton ??????metres.
j)
Calculate the shear force at point ?H in ???????Newtons.
k)
Calculate the bending moment at ?H in ??????Newton ??????metres.
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In the beam depicted above, A is a fixed support. The magnitude of W = 365N/Im, P = 60N and all lengths denoted by a = 1.5m. The system is
in equilibrium. Using the given sign convention, answer the following questions.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F2bfae4e2-14d9-473c-9fc8-9308968cb7f2%2Fcf8523e4-143f-4bf7-ba90-c8b803956709%2F27gks3g_processed.png&w=3840&q=75)
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