![]() ![]() The same case from before will be used here: Hence bending moment is shown on a bending moment diagram. When you bend a ruler, even though apply the forces/moments at the ends of the ruler, bending occurs all along the ruler, which indicates that there is a bending moment acting all along the ruler. Both diagrams are correct.īasic bending moment diagram īending moment refers to the internal moment that causes something to bend. ![]() You can also do this procedure covering the left side instead of the right, your diagram will be "upside down" though. For clarity, when doing these diagrams it is recommended you move you paper from left to right, and hence analyse points A,B, C, and E, in that order. Notice how nothing exciting happens at point D, which is why you wouldn't normally analyse the shear force at that point. If you don't understand why, leave a message on the discussion section of this page (its at the top), I will elaborate on the explanation: your diagram should look like the one below. Now, do point A, D and E, and finally join the points. Firstly put your piece of paper, so it's JUST before point B: BUT - slight complication - there's a force acting at point B, are you going to include it? The answer is both yes and no. Shear force at D = 10N - 20N + 40N = 30Newtons For illustration purposes, this is done for point D: Then plot the point on the shear force diagram. The way you work out the shear force at any point, is by covering (either with your hand or a piece of paper), everything to right of that point, and simply adding up the external forces. ![]() The way you go about this is by figuring out the shear force at points A,B,C,E (as there is an external force acting at these points). What if there is more than one force, as shown in the diagram below, what would the shear force diagram look like then? Please note that this is not the full explanation of what shear force actually is.īasic shear diagram The whole object moves forward, which tells you that the force must have transferred all along the object, such that every atom of the object is experiencing this 10N force. Even though you're applying the force only at one point on the object, it's not just that point of the object that moves forward. Imagine pushing an object along a kitchen table, with a 10N force. The idea of shear force might seem odd, maybe this example will help clarify. As the shear force is 10N all along the beam, the plot is just a straight line, in this example. The shear force between point A and B is usually plotted on a shear force diagram. This internal force is known as shear force. However because the beam is a rigid structure, the force will be internally transferred all along the beam. What is shear force? īelow a force of 10N is exerted at point A on a beam. ![]()
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