A bee is moving along a circular path from point A to point B, as shown...

(a) A car is travelling around a circular path that such that its position from point...

(a) A car is travelling around a circular path that such that its position from point O is defined by r = 200 (4 – 2 sin θ) m. If the angular motion is defined by θ = (0.01t3) rad, determine the direction and magnitude of the car’s velocity and acceleration when θ = 1

A particle is moving along a circular path having a radius of 1m such that its...

A particle is moving along a circular path having a radius of 1m such that its position as a function of time is given by θ = cos 2t, where θ is in radians and t is in seconds. Determine the magnitude of the acceleration of the particle when θ = 1/2 radian.

A bike air valve is 0.3m from centr of a uniformly spinning wheel, moving tangentialy along...

A bike air valve is 0.3m from centr of a uniformly spinning wheel, moving tangentialy along the wheel perimetr at 6.2m/s. A. Can you figure out how fast the bike is moving, ifso answer in m/s. what else might you need to answr? B. What is the tangential acceleration of the air valve? Answer in m/s^2 C. What is the centripetal acceleration of the air valve? Answer in m/s^2 ? D. What is the angular velocity of the wheel? Answer...

A bead rotates round a circular path of radius 13 cm with an angular acceleration of...

A bead rotates round a circular path of radius 13 cm with an angular acceleration of 0.515 rad/s2 from an initial angular speed of 0.36 rad/s. (a) What is its centripetal acceleration after 673 ms have elapsed? (b) What is its radial acceleration at the same time? (c) What is its total acceleration at the same time?

Consider the linkage system below. At the instance shown, point C moves downward at 1.5 m/s...

Consider the linkage system below. At the instance shown, point C moves downward at 1.5 m/s and has a downward acceleration of 4 m/s2. Pay attention to the reference axis shown in the diagram, and be sure to denote the proper vector notation on all answers. Write down the position vector of point B with respect to point A. Write down the position vector of point C with respect to point B. 1.3 Write down the position vector of point...

A block of mass m is moving in a circular path on a tabletop. The radius...

A block of mass m is moving in a circular path on a tabletop. The radius of the circle is r and the object's speed is v. What is the initial angular momentum of the system? What is the initial kinetic energy of the system? Suppose the mass was being pulled in circular motion by a string. The string is threaded through a small hole on the top of the table, and a person pulls on the string until it...

A tennis player moves in a straight-line path as shown in the figure. On the vertical...

A tennis player moves in a straight-line path as shown in the figure. On the vertical axis in the figure, X1=4.0 and X2= −1.4m. Find her average velocities in the time intervals (a)Average velocity from 0 to 1.0 s. (b)Average velocity from 0 to 4.0 s. (c)Average velocity from 1.0 s to 5.0 s. (d)Average velocity from 0 s to 5.0 s. I NEED TO UNDERSTAND HOW TO DO THIS. PLEASE HELP ME UNDERSTAND and MAKE WORK CLEAR.

The velocity of a particle moving along the x-axis varies with time according to v(t) =...

The velocity of a particle moving along the x-axis varies with time according to v(t) = A + Bt−1, where A = 7 m/s, B = 0.33 m, and 1.0 s ≤ t ≤ 8.0 s. Determine the acceleration (in m/s2) and position (in m) of the particle at t = 2.6 s and t = 5.6 s. Assume that x(t = 1 s) = 0. t = 2.6 s acceleration  m/s2 position  m ? t = 5.6 s acceleration  m/s2   position  m ?

1. A wheel starts from rest and has an angular acceleration of 6.00 rad/s2 . When...

1. A wheel starts from rest and has an angular acceleration of 6.00 rad/s2 . When it has made 3.00 rev its angular velocity in rad/s is: 2. A circular disk of radius 1.00 m rotates, starting from rest, with a constant angular acceleration. What is the centripetal acceleration of a point on the edge of the disk at the instant that its angular speed is 2.50 rev/s?

Two students are running in the same direction on a circular path (assume that they start...

Two students are running in the same direction on a circular path (assume that they start the race at the same point and same time). The length of the circular path is 218 mm . One student runs with a constant velocity of 5.15 m/sm/s and second student runs with a constant velocity of 6.50 m/sm/s . a)When will the fast one tour the slower one? b)How far from the starting point will the slower one have run? c)How far...