You prolly dont care at all but does any of you know of a way to get back into an Instagram account..? I was stupid lost the account password. I love any assistance you can offer me.
@Dennis Johnny i really appreciate your reply. I got to the site through google and Im in the hacking process atm. Looks like it's gonna take a while so I will reply here later with my results.
the author forgot to include a 5-deg angle between the inclined plane and the rod A. Should he annotate this crucial angle in the question, then we should be able to find the rest of the angles, including the 45-deg angle at the top-left corner according to the transverse angle law. then the 50-deg would be the alternate angle of 45-deg + the given 5-deg. so in a nutshell, he forgot to put 5-degree in the question.
his guesstimate I supposed lol. anyways, the author forgot to include a 5-deg angle between the inclined plane and the rod A. Should he annotate this crucial angle in the question, then we should be able to find the rest of the angles, including the 45-deg angle at the top-left corner according to the transverse angle law. then the 50-deg would be the alternate angle of 45-deg + the given 5-deg. so in a nutshell, he forgot to put 5-degree in the question.
+Wahyu Agung, Thank you for your feedback. Please subscribe to our EzEd channel for more such videos. Please circulate the video with your friends too.
Hi Sithesha, Actually in this question one angle is missing that is the angle made by the collar at that instant is 40 degree. We will get this question corrected.
Not referring to any thing in this video...In general how to find the direction of velocity which is unknown ?I always assume the direction in a wrong way! please help me out asap
+Vedant Lahane. You assume a direction. And if the magnitude calculated is negative, then the direction is in the opposite direction than what you assumed. If the magnitude is positive, then your direction assumption is correct. Hope this helps
Please Help, Q. For a body executing planar motion: (a) The linear velocity of all the points of the body is same. (b) The linear velocity of a point is function of its radius vector. (c) The linear velocity as well as linear acceleration is same for all points of the body. (d) None of the above. Please give the answer with detailed explanation if possible.
You and I both know why you are here. A:You fell asleep in class and now this is being tested B: You didn't understand in class C:You are a curious person.
+Safwan Sapar, could you help us out with the exact timestamp on the video where you have the question? This will help us respond faster. Please subscribe to our EZEd channel for more such videos.