Good eye! I just made up this problem and missed that one. You are correct, that is also a zero force member under this loading condition. Thanks for pointing it out, I'll will take this video down and repost it (and the next one because it carries through) with the correction.

Engineer4Free Glad I could help 😊

Yes exactly

You don't have to remove the videos, just add an annotation and comment in the description

just had the same question, thank you. Still a little unclear though. So the one at 4:17 is a zero force member, what about it's opposing brother?

Yes, zfms serve a such a purpose. And also, not that as the load changes, the internal force will change in each member, including which ones are zfms. In real life, the situation won't be so simple as this too

Hey Tim, thanks for pointing that one out as others have, I missed it while making the video. I just added in a note of it into the description now. Sorry about that but good job for noticing!

Engineer4Free no problem! thanks for the reply. great video btw

At 7:10 the final diagram, Are they both zero the ones attached to the top and the one attached to the purple force is not zero right?

Yes, good eye and thanks for pointing it out. There is a note in the description of this video explaining the ZFM that I missed: "I missed two ZFMs in this video on the right hand side of the truss. They are the ones where my cursor is at 4:17. By the end of the video, you can see that I should have identified them as ZFMs because otherwise they would throw off the equilibrium at the joint that is on the bottom of the truss about 1/3 of the way from the right hand side. Sorry about that, and thanks to those who pointed it out!!!"

Engineer4Free Also post complete course of Dynamics

I plan to upload a full course on Dynamics within the next few months :)

@@Engineer4Free when are the dynamics videos out? this was really helpful

Hey, sorry for the wait. I am just working now to finish up the series on Linear Algebra and Differential Equations first. I'm just one person trying to do many things -_-

The joint has 3 members attached to it. Two of those members are in line with each other, and if they had internal forces, then those internal forces would share the same line of action. If the the third member that is not one of the two co-linear members has an internal force, then that internal force will not be in line with the other two, it will be at some angle. An angled force can also be represented as the sum of two forces, in which one force is parallel to the reference line that the angle is taken from, and one force is perpendicular to that same line. It's no different than talking about the "x component" or "y component" of a force that's on an angle taken from the x or y axis. So IF there was an internal force in the third non-co-linear member that's on an angle compared to them, then it would be applying some amount of force to the joint that is perpendicular to the lines of action of those other two co-linear forces. If that were the case, then the joint would not be in static equilibrium, as there is no 4th member available to provide an equal and opposite force that is perpendicular to the line that we keep referring to. Because this truss IS in static equilibrium, then every individual part (member, joint) must also be in static equilibrium. This means that this joint in question must be in static equilibrium, and that can only be true if there is no unbalanced force that is perpendicular to the line that we keep talking about. Therefore, the internal force in the third non-colinear member must be equal to zero for that joint to be in equilibrium. Hence the member is a zero force member. Does that clear it up?

Blessed

You're welcome Tallam!!

Theoretically yes. Practically no. They carry no internal force when the structure is loaded in this exact way, but when the loading changes, the ZFMs will change too. Plus considerations for stability and rigidity.

Yeah sorry I brainfarted. There is an explanation in the description of the video.

Watch this video first that explains the concept: www.engineer4free.com/4/how-to-identify-zero-force-members-in-trusses