asura
Nov4-08, 10:59 PM
1. The problem statement, all variables and given/known data
Water falls at the rate of 250 g/s from a height of 60 m into a 780 g bucket on a scale (without splashing). If the bucket is originally empty, what does the scale read after 2 s?
2. Relevant equations
p=mv
F\Deltat=\Deltap
3. The attempt at a solution
So I assumed that the water was already beginning to fill the bucket at t=0, since it cant reach the bucket in 2s.
First I found the velocity of the water right before it fills the bucket...
vf2=vi2+2ax
vf2= 2(9.81 m/s2)(60m)
vf= 34.3 m/s
Then I used the impulse momentum theorem...
F\Deltat=\Deltap
F( 2 s) = .500 kg( 0 - 34.3 m/s)
F = 8.58 N
Weight of the bucket is mg, which is 7.65 N...
so 8.58 + 7.65 is 16.2 N
im not sure about this though... can someone double check my work, I only have one try left
Water falls at the rate of 250 g/s from a height of 60 m into a 780 g bucket on a scale (without splashing). If the bucket is originally empty, what does the scale read after 2 s?
2. Relevant equations
p=mv
F\Deltat=\Deltap
3. The attempt at a solution
So I assumed that the water was already beginning to fill the bucket at t=0, since it cant reach the bucket in 2s.
First I found the velocity of the water right before it fills the bucket...
vf2=vi2+2ax
vf2= 2(9.81 m/s2)(60m)
vf= 34.3 m/s
Then I used the impulse momentum theorem...
F\Deltat=\Deltap
F( 2 s) = .500 kg( 0 - 34.3 m/s)
F = 8.58 N
Weight of the bucket is mg, which is 7.65 N...
so 8.58 + 7.65 is 16.2 N
im not sure about this though... can someone double check my work, I only have one try left