The block A and attached beam have a combined mass of F m,]kg and are confined to move along the [0]° guide under he action of the [F]-N force. The [L]-m long uniform beam nas a mass of [mB] kg and is welded to block A at point B (i.e. he beam is cantilevered at point B). Friction in the guide is hegligible. The dimensions of block A are unknown. A B (a) Calculate the acceleration a (magnitude and direction) of block A and the attached beam. Hint: Treat the block and beam as one lumped mass. (b) Calculate the bending moment reaction M (magnitude and direction) on the beam at point B. Hint: Draw a FBD of the beam only. Values 54.5 55 F 754 L= 1.21 24.1 MB .......... ---

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The block A and attached beam have a combined mass of F [m]kg and are confined to move along the [0]° guide under the action of the [F]-N force. The [L]-m long uniform beam has a mass of mB] kg and is welded to block A at point B (i.e. the beam is cantilevered at point B). Friction in the guide is negligible. The dimensions of block A are unknown. A B L (a) Calculate the acceleration a (magnitude and direction) of block A and the attached beam. Hint: Treat the block and beam as one lumped mass. (b) Calculate the bending moment reaction M (magnitude and direction) on the beam at point B. Hint: Draw a FBD of the beam only. Values m, = 54.5 55 F 754 L= 1.21 тв 24.1 -- -