This post categorized under Vector and posted on January 30th, 2020.

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I was given the problem If F1 stands for a force vector of magnitude 30.0 N and F2 stands for a force vector of magnitude 40.0N acting in the directions shown what are the resultant forces and what is the equilibrant force that would be needed to compensate for the resultant force of the vectors F1 and F2 that was calculated What is the equilibrant force needed to compensate for the resultant force of the vectors F1 and F2 that you calculated in the previous question Hint The equilibrant force is exactly what is necessary to sum all vectors to zero it is equal to but opposite of the resultant. x is measured from the x-axis -17.19 O b. Answer to What is the equilibrant force that would be needed to compensate for the resultant force of the vectors F_1 and F_2 that

How find equilibrant Ask Question Asked 3 years 3 resultant vector I have 10 10 sqrt37 and 53 degrees. The next question is What is the equilibrant force that would be needed to compensate for the resultant force of the vectors F1 and F2 What does that even mean What am I supposed to do physics. share cite improve this question. asked Sep 19 16 at 2144. user366783 user366783 In general no matter how many forces are acting on an object you can follow these rules to calculate the resultant force [math]1[math]) Begin by drawing a get-body diagram for the object. [math]2[math]) Draw coordinate axes from the centre o Show your work. MagnitudeN Direction(relative to x axis)-degrees 5. What is the equilibrant force that would be needed to compensate for the resultant force of the vectors F1 and F2 that you calculated in Question 4 Magnitude- N Direction(relative to x axis) degrees F2 60 Fi Figure 3-6 Addition of two force vectors. 37

RESULTANT FORCE AND EQUILIBRIUM FORCE What is the Resultant Force and How to Find it (with Examples) In this article you will learn what the resultant force (also known as net force) is and how to find it when an object is subject to parallel forces as well as non-parallel forces with the help of examples.. What is the resultant force When an object is subject to several forces the resultant force is the force that alone This third force that would do the cancelling out is called the equilibrant. The equilibrant is a vector that is the exact same size as the resultant would be but the equilibrant points in exactly the opposite direction. For this reason an equilibrant touches the other vectors head-to-tail like any other vector being added. If F1 stands for a force vector of magnitude 30.0 N and F2 stands for a force vector of magnitude 40.0N acting in the directions shown what is the equilibrant force that would be needed to compensate for the resultant force of the vectors F1 and F2 that was calculated