- #1
jill2040
- 6
- 0
1. A small steel ball bearing with a mass of 27.0 g is on a short compressed spring. When aimed vertically and suddenly released, the spring sends the bearing to a height of 1.17 m. Calculate the horizontal distance the ball would travel if the same spring were aimed 34.0° from the horizontal.
2. I've tried the whole problem from every direction I can think of but I keep getting it wrong. Can anyone tell me step by step what I would need to do? I don't need answers, just directions with concepts.
3. I assume the first thing I need to do is find the initial velocity. I found what the final velocity would be if the bearing was dropped from 1.17 m to be -4.7887 m/s. I found that number no matter what[ equation I used. From there, I found the total time of motion to be .9772 s. I multiplied the t times the initial v times cos(34) and got 3.88 m but the homework program still told me I was wrong. I'm missing something.
2. I've tried the whole problem from every direction I can think of but I keep getting it wrong. Can anyone tell me step by step what I would need to do? I don't need answers, just directions with concepts.
3. I assume the first thing I need to do is find the initial velocity. I found what the final velocity would be if the bearing was dropped from 1.17 m to be -4.7887 m/s. I found that number no matter what[ equation I used. From there, I found the total time of motion to be .9772 s. I multiplied the t times the initial v times cos(34) and got 3.88 m but the homework program still told me I was wrong. I'm missing something.
