admin@mazurekgravity.in

The total load W is to be lifted using the mast hinged at B. The mast is of uniform section and veighs 8 kN. a) What is the vertical reaction at B if W = 36KN? b.) What is the tensile force (kN) in the cable if W = 36 kN?

Question-AnswerCategory: Engineering MechanicsThe total load W is to be lifted using the mast hinged at B. The mast is of uniform section and veighs 8 kN. a) What is the vertical reaction at B if W = 36KN? b.) What is the tensile force (kN) in the cable if W = 36 kN?
ashley asked 11 months ago

The total load W is to be lifted using the mast hinged at B. The mast is of uniform section and veighs 8 kN. a) What is the vertical reaction at B if W = 36KN? b.) What is the tensile force (kN) in the cable if W = 36 kN?

W 19m
BA
8 m
4 m
1 Answers
Mazurek Gravity Staff answered 11 months ago

A tensile force is always going outward from its point of application. The mast is used for the Shipping line to carry the load from one place to another place. As we can see it is mentioned that it has a uniform section which means the weight of Mast will act at mid of the length. There are two Hinges available at A and at B. Both the Hinges would have a vertical reaction at Point A and B as well.

A tensile force is always going outward from its point of application. The mast is used for the Shipping line to carry the load from one place to another place. As we can see it is mentioned that it has a uniform section which means the weight of Mast will act at mid of the length. There are two Hinges available at A and at B. Both the Hinges would have a vertical reaction at Point A and B as well.

A tensile force is always going outward from its point of application. The mast is used for the Shipping line to carry the load from one place to another place. As we can see it is mentioned that it has a uniform section which means the weight of Mast will act at mid of the length. There are two Hinges available at A and at B. Both the Hinges would have a vertical reaction at Point A and B as well.

Your Answer

14 + 13 =