If I have a cart that has a force sensor on it and then I have the available supplies: Motion sensor, computer to read the motion and force sensors, weights and weight holder, wood blocks (tilt the track) and also some springs, then how could I go about getting the mass of the cart without a scale or spring scale?
The computer outputs a graph of the position, velocity, acceleration, and the force.
I'm guessing there are multiple ways to go about determining the mass of the cart, but I'm not sure what all of them could be, so I'll write about my idea, but it would be nice if someone can help confirm I'm doing it correctly and if they have any other ideas.
My first idea is to tilt the track (with the wood blocks) and then start recording the data of $x(t)\;v(t)\;a(t)\;\;and\;\; F(t)(not \;useful\;here)$ so that I'm collecting data that I can then get values from. So, start with the track tilted and the cart being held at zero velocity and then release it. I think that it doesn't matter if I let the cart come to rest or if I stop recording data while it is still rolling (shouldn't make a difference in my calculations). Then I can use these equations to find acceleration: $$v_f^2=v_i^2+2a(x_f-x_i)\;\;\;or\;\;\;x_f^2=x_i^2+v_it+{1\over2}at^2$$ I can only use the second if I keep track of time. So, at this point, I may be able to use Newton's second law $F=ma$ but I'm not sure what to do with the force if I want to solve for m. I'm stuck at this point for this idea.
For my second idea, I can just pull on the force sensor hook and measure the force and acceleration but I'm not sure what to do with friction here. If I ignore friction (I would like to be able to justify doing that) then it should be simple to calculate the mass. I could also use the spring here, but that just complicates everything at this step.
If anyone can answer my above questions I would be very grateful, sorry for them being so easy I just can't get a hang of physics for some reason, it doesn't come naturally to me. Thank you!