No,it is not possible for a body moving on a circular track to have zero acceleration.
If a body is moving on a straight line with a constant speed.Then the acceleration of the body is zero.Because the speed of the body doesn't change.
Now,when the body is moving on a circular track the speed of the body is constant,but the direction of the body is continuously changing.Since the acceleration of the body is not zero.So,it is not possible for a body moving on a circular track to have zero acceleration.
is it posible for a body moving on a circular track to have zero acceleration ?...
A section of a high speed test track is circular with a radius of curvature R = 1700 m. At what angle of θ should the track be inclined so that a car traveling at 77.0 m/s (172 mph) would keep moving in a circle if there is oil on that section of the track, i.e., it would not slip sideways even with zero friction on that section. (Hint: The car's vertical acceleration is zero.)
A section of a high speed test track is circular with a radius of curvature R = 1620 m. At what angle of θ should the track be inclined so that a car traveling at 65.0 m/s (145 mph) would keep moving in a circle if there is oil on that section of the track, i.e., it would not slip sideways even with zero friction on that section. (Hint: The car's vertical acceleration is zero.)
Q15 A car is moving on a circular track at constant speed v 40 MPH. The radius of the track is R 30 m. when the car has traveled a distance of πR, its acceleration is a) Pointing towards the center of the circle and equal to 10.7 m/s2 b) Pointing along the circle and equal to 10.7 m/s c) 0 d) None of the above.
a small cart is moving on the inside of a circular verticle track with constant soeed kf 5m/s. if the normal force on the cart at the too of the track is mg, then the normal force on the cart at the bottom of the track is O out of 2 points Question 20 A small cart is moving on the inside of a circular vertical track with constant speed of 5m/s. If the normal force on the cart at...
Nancy is running around a circular track encircling the reservoir where she grew up in Boston. As she's running, which of the following is true? A. Her shoes need to exert a small, radially inward force on the ground to keep her body moving along the circular track. B. Her shoes need to exert a small, radially outward force on the ground to keep her body moving along the circular track. C. Her shoes do not need to exert any...
7. [2 points] A particle is moving at a constant speed in a circular path centered at the origin on an xy coordinate system. At one point (x=4m, y=0), the particle has a velocity of 5ġ m/s. a. State whether the particle is moving clockwise or counter-clockwise on the circular track. b. What is the constant speed of the particle throughout its circular trajectory? c. What is the acceleration (expressed as a vector) of the particle when it is at...
In polar components, if is zero for a particle, the particle is moving in a circular path. moving on a straight line. moving with constant velocity. not moving.
Can you have zero velocity and non-zero average acceleration? And acceleration zero and nonzero velocity? Explain, using a vx versus t graph and give an example of said movement.
a 1300 kg car is moving on flat circular track that has radius of 0.60 km. the car is traveling at 25 m/s. what is the angular velocity?
10. An object is moving in a circular path with a centripetal acceleration of 100 m/s2 with a radius of 10 m. Calculate the velocity of the object