Wiki User
∙ 11y agosure.
Wiki User
∙ 11y agoNo. If you can drive around a ten-mile track in the same time it takes you to drive around a one-mile track, then your angular velocity is the same in both cases. But in order to do that, you'll need much higher tangential velocity during the longer run. Tangential velocity is what you'd normally call your 'speed' as you blaze around the track.
u would have to run around the track once
4 To reach the total distance of one mile, you would have to run around a 1/4 mile track 4 times.
Seems to me like that would depend on the distance around the track. They're not all the same, you know. If it's an American high school 1/4-mile track, like around the football field, then that's 2.485 times around it plus another 19.5 centimeters farther. (rounded)
Well assuming that everytime around the track is 1/4 a mile. You would have to run a lap in 2.5 minutes to make That 60 minute deadline. ( 4*6=24/60=2.5 )
Yes, if you run around a track at a constant speed of 5 km/h, your velocity is constant because velocity includes both speed and direction. As long as you maintain this speed and direction, your velocity remains constant.
Yes, it is possible to run around an oval running track at a constant velocity if the runner maintains a consistent speed without accelerating or decelerating. The runner would need to adjust their pace in the curved sections to counteract the change in direction and maintain a constant velocity.
No. If you can drive around a ten-mile track in the same time it takes you to drive around a one-mile track, then your angular velocity is the same in both cases. But in order to do that, you'll need much higher tangential velocity during the longer run. Tangential velocity is what you'd normally call your 'speed' as you blaze around the track.
u would have to run around the track once
60mph. slightly slower than the flying pig you were chasing.
You run around on a big track!
As you run circular laps at a constant speed, your speed remains constant, but your velocity changes because velocity is a vector quantity that includes direction. Your acceleration points towards the center of the circle, providing the centripetal force needed to keep you moving in a circular path.
Any child can run around a track as long as they can run. There is no age requirement to be able to go around a track. Kids 1-2 years old may run if they wish.
1 lap around track = 400 meters = 1/4 mile
Since the car is moving with a constant velocity, the net force acting on the car is zero. This is in accordance with Newton's First Law of Motion, which states that an object in motion will stay in motion with a constant velocity unless acted upon by a net force.
i think that's 12 mph constant
counter-clockwise