A uniform 400 N beam of length L = 4 m is supportinga 2000 N box as shown. Find the tension in the tie ropeand the force F exerted by the hinge at point P. P.S. You don't have to answer the whole question. Please just explain how to solve the tension. Calculation :T=? & fp=?IFx = 0Fx -TE FyニFy - Wb - WeFyWot Wg400 + 200%3D%3DFy2400 N%3D->%3DWo Lwn t Wg Lwa - TLT = 0400 ( costs) + 2000 (icosas) - T (cosas)200+ 2000T =2200メ4T= 2933.33 NfromFx = 2933.33 N%3Dfp =2933.33+ 24002Fp =3790 NLగర

There are three conditions that must be satisfied for equilibrium, 1. The sum of forces in…

A uniform 400 N beam of length L = 4 m is supporting a 2000 N box as shown. Find the tension in the tie rope and the force F exerted by the hinge at point P. P.S. You don't have to answer the whole question. Please just explain how to solve the tension.

A uniform 400 N beam of length L = 4 m is supporting a 2000 N box as shown. Find the tension in the tie rope and the force F exerted by the hinge at point P. P.S. You don't have to answer the whole question. Please just explain how to solve the tension.

College Physics

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ISBN:9781938168000

Author:Paul Peter Urone, Roger Hinrichs

Publisher:Paul Peter Urone, Roger Hinrichs

Chapter25: Geometric Optics

Section: Chapter Questions

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Concept explainers

Rotational Equilibrium And Rotational Dynamics

In physics, the state of balance between the forces and the dynamics of motion is called the equilibrium state. The balance between various forces acting on a system in a rotational motion is called rotational equilibrium or rotational dynamics.

Equilibrium of Forces

The tension created on one body during push or pull is known as force.

Question

Calculation :
T=? & fp=?
IFx = 0
Fx -T
E Fy
ニ
Fy - Wb - We
Fy
Wot Wg
400 + 200
%3D
%3D
Fy
2400 N
%3D
->
%3D
Wo Lwn t Wg Lwa - TLT = 0
400 ( costs) + 2000 (icosas) - T (cosas)
200
+ 2000
T =
2200メ4
T= 2933.33 N
from
Fx = 2933.33 N
%3D
fp =
2933.33+ 24002
Fp =
3790 N
Lగర

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