Classical Physicist

Hey, I am awaiting your response!

I owe you a lot for the fact that You are willing to help me understand it, by a TON! I am extremely grateful for it. So I took a look at your notes here, and As I understand the ideal θ will be equal to θ=45o, because sin(2*45o)= 1, so the best possible value that can be in the denominator, Plugging those values in, I got these results: Sure as Hell I would, because I don't get the kind of differentiation we can do here, - especially here with the respect to certain variables, I see you went for differentiating with respect to the angle --- dθ, and so the left hand side sure is d(t2)/dθ , but right side is simply the 4b/g *1/sin(2θ) - so it would get messy, (correct me if I'm wrong) Also this leaves me wondering, are you referring to the 3.30 problem or 3.31 as in the figure above? By reading it- I get even more confused, because why on earth would you want to depict the distance by a moving mechanism of a piston? - Sorry for being rough but it's quite funny way to measure the distance. I just don't understand how it is related to finding the shortest possible time? sorry for "being ignorant", but I'm trying as much as I can.

the basic ones? quite a few that's the most general an basic one x(t)= x0+v0xt+(axt2/2) alternatively since we don't deal with any quadratic function over here : x(t)= x0 +vt by the way I am new here and for some reason can't have more than five post for now - I think you'd have to help me get some points or idk, just so that i can post here

yes!... my concentration right now is very "diffused" if that makes sense- basically I'm trying to do as many problems as I can, without giving too much attention to the details… So Sorry for taking a lot of time to respond, I'll try to limit myself down to this problem right now… hah, I'm seeing you're from UK, so Right now it's quite late (presumably close to midnight ) So I understand you won't be able to respond for some time, so if you don't mind me asking... when will you have some free time so that you'll be active on this forum?

So I shall use the basic trig here right? Assuming inclined plane has a shape of right triangle with base b, hypotenuse c and height x (vertical distance) We get cos (θ)=x/c ===> cos (θ)*c=x , and now the kinematics… Right?

Thanks! Had no idea that it's related to the brachistochrone problem. How would you go about Solving this? Possibly using the "more basic" maths?

A small block was placed on a smooth inclined plane. The horizontal block distance from the lower end of the incline is b = 40.135 cm. The angle of inclination was adjusted so that the sliding time of the block was as short as possible, each time placing the block so that the distance b did not change. find the shortest possible sliding time T of the block. Assume that the acceleration due to gravity is g = 9.81 m /s2. Skip friction and air resistance. Any hints Highly appreciated. I just have a problem with correlating the distance b with the maximum angle possible to make the block even slide from the ramp.