A rod `AB` is moving on a fixed circle of radius `R=5m` with constant velocity `v=4m//s` as shown in figure. `P` is the point of intersection of the rod and the circle. At an instant the rod is at a distance `x=(3R)/5` from center of the circle. The velocity of the rodf is perpendicular to its lenght and the rod is always paraller to the diameter `(CD)`
Speed of point of intersection `P` is

A rod AB is moving on a fixed circle of radius R with constant velocity 'v' as shown in figure. P is the point of intersection of the rod and the circle. At an instant the rod is at a distance x=(3R)/(5) from centre of the circle. The velocity of the rod is perpendicular to the rod and the rod is always parallel to the diameter CD . (a) Find the speed of point of intersection P (b) Find the angular speed of point of intersection P with respect to centre of the circle.

A rod AB is moving on a fixed circle of radius R with constant velocity 'v' as shown in figure. P is the point of intersection of the rod and the circle. At an instant the rod is at a distance x=(3R)/(5) from centre of the circle. The velocity of the rod is perpendicular to the rod and the rod is always parallel to the diameter CD . (a) Find the speed of point of intersection P (b) Find the angular speed of point of intersection P with respect to centre of the circle.

A rod AB is moving on a fixed circle of radius R with constant velocity v as shown in figure. P is the point of intersection of the rod and the circle. At an instant the rod is at a distance x=(3R)/(5) from centre of the circle. The velocity of the rod is perpendicular to the rod and the rod is always parallel to the diameter CD. (i) Find the speed of point of intersection P. (b) Find the angular speed of point of intersection P with respect to centre of the circle.

A rod AB is moving on a fixed circle of radius R with constant velocity v as shown in figure. P is the point of intersection of the rod and the circle. At an instant the rod is at a distance x=(3R)/(5) from centre of the circle. The velocity of the rod is perpendicular to the rod and the rod is always parallel to the diameter CD. (i) Find the speed of point of intersection P. (b) Find the angular speed of point of intersection P with respect to centre of the circle.

If a body is moving in a circle of radius r with a constant speed v m/s. Its angular velocity is

(a) A line PQ is moving on a fixed circle of radius R. The line has a constant velocity v perpendicular to itself. Find the speed of point of intersection (A) of the line with the circle at the moment the line is at a distance d = R//2 from the centre of the circle. (b) In the figure shown a pin P is confined to move in a fixed circular slot of radius R. The pin is also constrained to remains inside the slot in a straight arm O'A. The arm moves with a constant angular speed w about the hinge O'. What is the acceleration of point P ?

A particle is moving in a circle of radius r with speed v as shown in the figure. The magnitude of change in velocity in moving from P to Q is

A particle is moving in a circle of radius r with speed v as shown in the figure. The magnitude of change in velocity in moving from P to Q is

A particle is moving in a circle of radius r with speed v as shown in the figure. The magnitude of change in velocity in moving from P to Q is

A particle is moving in a circle of radius r with speed v as shown in the figure. The magnitude of change in velocity in moving from P to Q is