Recent content by Fluent

That's very odd.. This is a General Physics course and as the semester is over we won't be learning about any of that complex stuff. Maybe there's some assumptions that he expected us to make in order to solve it. Thanks for the input.

Hello, I came across a type question and my prof never went through it in the class and unfortunately I couldn't find it in the textbook nor on the internet. I can find the equivalent capicitance of capacitors in a combination of series/parallel no problem, however when a resistor is thrown in...

Ahh thanks a lot man.. appreciate it.

velocity.. however unfortunately the answer is not 9 m/s. The other information is needed to solve this.. as the force isn't the same throughout.. (it's 5.00 N only at t = 0 s)

Kg m^2/s^3 Few more points would be helpful. Thanks

Yes, the 2.0m has something to do with the location of the bob. Use the bottom of the pendulum's course (2.0 m) as the reference point (at this point the PE is 0 and the KE is at a maximum). Ill give you a shove in the right direction. Let's say the height of the bob at it's location at 25...

A constant direction force delivers a constant power of 45.0 W to an 8.00-kg mass which is initially moving in the direction of the force. At t = 0 s, the force is 5.00 N. Calculate the speed of the mass after 4.00 s. I've tried to do several different things, however I believe you need to...