blackops23
Member
- Joined
- Dec 15, 2010
- Messages
- 428
- Gender
- Male
- HSC
- 2011
Hi guys, this seems like a relatively simple question, there's just one tiny thing I'm having trouble with:
Q. A particle moves in a straight line against a resistance of magnitude kv per unit mass. At a fixed point O on the line, the initial speed is 50m/s, and the speed is reduced to 5m/s after it has moved 10m.
Find (i) the distance for the speed to reduce to 20m/s.
Here's what I did:
a = -kv
v(dv/dx) = -kv
dv = -k dx
v+c = -kx
v = 50 , x = 0
so v - 50 = -kx
we need to find x when v = 20, so x = 30/k
Question is: HOW DO I FIND THE VALUE OF K?
What i did was chuck in x=10, and v = 5 in the equation v-50=-kx, so i got k=4.5 (which probably is wrong)
Am I allowed to do this? Or is there some other way i have to find k? What is the real value of k?
Thanks guys, appreciate the help.
Q. A particle moves in a straight line against a resistance of magnitude kv per unit mass. At a fixed point O on the line, the initial speed is 50m/s, and the speed is reduced to 5m/s after it has moved 10m.
Find (i) the distance for the speed to reduce to 20m/s.
Here's what I did:
a = -kv
v(dv/dx) = -kv
dv = -k dx
v+c = -kx
v = 50 , x = 0
so v - 50 = -kx
we need to find x when v = 20, so x = 30/k
Question is: HOW DO I FIND THE VALUE OF K?
What i did was chuck in x=10, and v = 5 in the equation v-50=-kx, so i got k=4.5 (which probably is wrong)
Am I allowed to do this? Or is there some other way i have to find k? What is the real value of k?
Thanks guys, appreciate the help.
