Determine the vertical support reactions, Physics

The I beam weighs 0.6kN/m and supports the load which is P33 kN as shown. The distance from the load to point B is P34 m.  Determine the vertical support reactions at A and B.  (A support reaction vertically up is considered positive.) 

The vertical reaction in kN at A to 2 decimal places, is, 

 ANS  

The vertical reaction at Bin KN to 2 decimal places, is, 

 ANS

717_Determine the Vertical Support Reactions.png

Posted Date: 2/26/2013 4:44:57 AM | Location : United States







Related Discussions:- Determine the vertical support reactions, Assignment Help, Ask Question on Determine the vertical support reactions, Get Answer, Expert's Help, Determine the vertical support reactions Discussions

Write discussion on Determine the vertical support reactions
Your posts are moderated
Related Questions
Q. What is Fresnel diffraction? a) The source as well as the screen are at finite distances from the obstacle producing diffraction. b) The wave front suffer diffraction is

A river is flowing 4.0 m/s to the east. A boater on the south shore plans to reach a dock on the north shore 30.0° downriver by heading directly across the river. a. What shoul

Q. Select the correct trajectory of the ball after it breaks? A ball is being whirled on a string. At the instant shown in figure, the string breaks. choose the correct traject

INSTANTANEOUS VELOCITY: The velocity of a body at a certain instant of time is known as instantaneous velocity.

Please help I am stuck on this physics problem. Please cany anyone explain to me how to do it step by step please? If the speed of a car is increased by 135%, by what factor will

Has Vc a limit? Answer; precisely, but we do not know its limit. But we know it is greater than c.

What is a hypothesis for a Hooke''s Law experiment which was completed with a single, series and parallel spring arrangement?

What occurs if electrical connection or electrical joint is loose? Ans: Because of loose connection at joints resistance at that point will increase thereby the I²R loses ar

A concentric tube heat exchanger is comprised of a thin wall inner tube of 25.4 mm diameter and an outer tube of 47 mm diameter. The heat exchanger is used for cooling lubricating

AC  Output  Resistance  in  Common  Base  Configuration Ratio  of  change  in collector-base  voltage  ( ? V CB )  to  resulting  change  in  collector  current  ( ? I C )  at