- #1
inner08
- 48
- 0
Hi,
I have this practice problem I'm trying to figure out.
A pendulum 80 cm in length has a mass of 0.4g is suspended on the roof of a truck accelerating at 2.6m/s/s. Find a) the horizontal deviation of the mass; b) the tension in the cord.
For a, I know the answer is 20.6cm but I really have no clue as to where to start, what formulas to use. I've been trying for a couple of hours with the formulas I have and can't seem to get the correct answer. I do know this would be a non-inertial frame of reference type of problem but I'm stuck as to how I arrive to that answer.
For b, I thought i'd use the pythagorean equation since we have the weight and the force F' making a 90 degree angle. So I did sqrt((mg)^2 + (ma)^2) = 4.06N.
Any insight on how I should approach the first problem and the steps I should take to solve it would be greatly appreciated!
Thanks,
I have this practice problem I'm trying to figure out.
A pendulum 80 cm in length has a mass of 0.4g is suspended on the roof of a truck accelerating at 2.6m/s/s. Find a) the horizontal deviation of the mass; b) the tension in the cord.
For a, I know the answer is 20.6cm but I really have no clue as to where to start, what formulas to use. I've been trying for a couple of hours with the formulas I have and can't seem to get the correct answer. I do know this would be a non-inertial frame of reference type of problem but I'm stuck as to how I arrive to that answer.
For b, I thought i'd use the pythagorean equation since we have the weight and the force F' making a 90 degree angle. So I did sqrt((mg)^2 + (ma)^2) = 4.06N.
Any insight on how I should approach the first problem and the steps I should take to solve it would be greatly appreciated!
Thanks,
