Recent content by mikkeljuhl

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No, I have not. But I may be able to do it, in one of the following days, hopefully. I would, however, like you to confirm that this is the right method to go about it, if you can do that? I just thought that it wouldn't be such a big uncertainty not to take moment of inertia into account...

Yep, am I completely off?

I have done that now, graphed in a velocity vs. time graph. I ended out with the equation: y = 0.2839x + 0.0971 y = velocity; a = acceleration, x = time; and let's pretend b is zero as that is the only plausible outcome. Is that correct? But this is where you lose me. Because...

Of course in order to get immaculate results. But what if we do not take friction into account...

Shouldn't it be possible to calculate it without that? And how would you include that in the calculation?

I have been using the formula a = g sin(theta) to process my data I am however pretty sure something is wrong. I doubt it is my data that is wrong, even though when I look at them they look weird in the sense that I would think that after one second the acceleration should have been doubled...