1. For the beam below, calculate the reaction at each support, Neglect the weight of the beam. 2. For the beam below calculate the reactions at roller and pin support. The weight of the beam is...

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1. For the beam below, calculate the reaction at each support, Neglect the weight of the beam. 2. For the beam below calculate the reactions at roller and pin support. The weight of the beam is 600N/m. 3. For the beam below, calculate the reaction at each support, Neglect the weight of the beam. 4. For the beam below, calculate the reaction at each support, Neglect the weight of the beam. 5. Calculate the reactions at A and B for the bracket shown below. 1. For the beam below, calculate the reaction at each support, Neglect the weight of the beam. 2. For the beam below calculate the reactions at roller and pin support. The weight of the beam is 600N/m. 3. For the beam below, calculate the reaction at each support, Neglect the weight of the beam. 4. For the beam below, calculate the reaction at each support, Neglect the weight of the beam. 5. Calculate the reactions at A and B for the bracket shown below. new doc 2020-09-23 15.32.31 Scanned with CamScanner 1. Find reactions at Pin and Roller Supports. 2. If the intensity of the distributed load acting on the beam is w = 3 KN/m, determine the reactions at the roller A and pin B. 3. Find reactions at roller support A and Pin support at B