When forces f1 f2 f3 are mutually perpendicular?

When forces f1 f2 f3 are mutually perpendicular?

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Answer: When forces F1, F2 and F3 are acting on the particle, it remains in equilibrium. Now, it is given that F2 and F3 are perpendicular to each other. So, we can infer that force F1 has to balance the resultant of the other two forces.

Q. When a force F acts on body of mass m the acceleration produced in the body is a if three equal fo?

Question: When a force F acts on a body of mass m, the acceleration produced in the body is a. If three equal forces F1 = F2 = F3= F act on the same body as shown in the figure, then please help me to calculate the acceleration produced by the body.

Q. When a force F acts on a helical spring?

Question: When A Force F Acts On A Helical Spring Of Wire Diameter D And Mean Coil Diameter D, Then The Maximum Torsional Shear Stress τ Is Given By: 8FD 16FD 4F 8FD 4F A)

Q. What should be the value of F in the following to balance the effect of F1 and F2?

Answer. Answer: F would be equal to sum of F1 and F2 in case of equilibrium.

Q. What do you mean by equilibrium of concurrent forces prove that under the action of three concurrent forces F1 F2 and F3 a body will be in equilibrium when F1 F2 +F3 0 F1 F2 and F3 all are vectors?

According to the question, f1 f2 and f3 are the forces acting on the object but still the object is at equilibrium. Therefore, the three forces must be balanced each other, that is the net force acting on the object is 0. Hope it may help you my dear Mate.

Q. When forces F1 F2 and F3 are acting on a particle of mass m such that F2 and F3 are?

When forces F1, F2, F3, are acting on a particle of mass m such that F2 and F3 are mutually perpendicular, then the particle remains stationary.

Q. When forces F1 F2 and F3 where F2 is perpendicular to F3 act on a particle the particle remains stationary What is the magnitude of acceleration of the particle if the force F1 is removed?

The particle remains stationary on the application of three forces that means the resultant force is 0. Since, if the force F1 is removed, the forces acting are F2 and F3, the resultant of which has the magnitude of F1.

Q. What do you mean by equilibrium of concurrent force?

Concurrent means that the forces intersect through a single point. If forces are concurrent, we can add them together as vectors to get the resultant. If the body is not accelerating, it must be in equilibrium, so that means the resultant is zero.

Q. What are concurrent forces prove that under the action?

Answer. Answer: In a concurrent force system, all forces pass through a common point. In the previous case involving the application of two forcesto a body, it was necessary for them to be colinear, opposite in direction, and equal in magnitude for the body to be in equilibrium.

Q. What are the concurrent forces?

A set of point forces is considered concurrent if all the lines of action of those forces all come together at a single point. Because the lines of action for the gravitational force and the two tension forces line up at a single point, these forces are considered concurrent.

Q. What is the use of Lami’s theorem?

Lami’s theorem relates the magnitudes of coplanar, concurrent and non-collinear forces that maintain an object in static equilibrium. The theorem is very useful in analyzing most of the mechanical as well as structural systems.

Q. What do you mean by Lami’s theorem?

From Wikipedia, the free encyclopedia. In physics, Lami’s theorem is an equation relating the magnitudes of three coplanar, concurrent and non-collinear vectors, which keeps an object in static equilibrium, with the angles directly opposite to the corresponding vectors.

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