A tennis ball connected to a string is spun around in a vertical, circular path at...

A tennis ball connected to a string is spun around in a vertical, circular path at...

A tennis ball connected to a string is spun around in a vertical, circular path at a uniform speed. The ball has a mass m = 0.15 kg and moves at v = 4.89 m/s. The circular path has a radius of R = 0.94 m What is the minimum velocity so the string will not go slack as the ball moves around the circle?

A ball of mass m is attached to a string. It is spun around at a...

A ball of mass m is attached to a string. It is spun around at a distance r at 2 m/s, where the tension in the string is measured to be 10 N. If the ball is then spun around at 8 m/s, what is the new tension in the spring?

In her hand, a softball pitcher swings a ball of mass 0.254 kg around a vertical...

In her hand, a softball pitcher swings a ball of mass 0.254 kg around a vertical circular path of radius 59.4 cm before releasing it from her hand. The pitcher maintains a component of force on the ball of constant magnitude 29.8 N in the direction of motion around the complete path. The speed of the ball at the top of the circle is 15.7 m/s. If she releases the ball at the bottom of the circle, what is its...

A mass of 3 kg is connected to a string of length 3.4 meters to form...

A mass of 3 kg is connected to a string of length 3.4 meters to form a yo-yo. It is swung in a vertical circle. The string breaks when the tension in the string is 89 Newtons. It happens to reach this tension on the side of the circle (halfway between the top and bottom) and the mass moves through midair at the velocity it was moving at the side when the string broke. What is the maximum vertical displacement...

A tennis ball connected to a string fixed to a frictionless table travels in a horizontal...

A tennis ball connected to a string fixed to a frictionless table travels in a horizontal circle at constant radius with decreasing angular velocity. If the string breaks, which describes the tennis ball's linear velocity right afterwards? A. It is changing direction, but not magnitude. B. It is constant. C. It is changing magnitude, but not direction. D. It is changing both magnitude and direction.

A ball swings in a vertical circle at a constant speed at the end of a...

A ball swings in a vertical circle at a constant speed at the end of a 1.5-m-long string. When the ball is at the top of the circle, the tension is 10N, at the bottom the tension is 50N. a) What is the mass of the ball? b) What is the speed of the ball?

A ball on the end of a string is whirled around in a horizontal circle of...

A ball on the end of a string is whirled around in a horizontal circle of radius 0.340 m. The plane of the circle is 1.50 m above the ground. The string breaks and the ball lands 1.50 m (horizontally) away from the point on the ground directly beneath the ball's location when the string breaks. Find the radial acceleration of the ball during its circular motion. Magnitude m/s2Direction away from the center of curvature toward the center of curvature

A child is swinging a 330-g ball at the end of a 69.0-cm-long string in a...

A child is swinging a 330-g ball at the end of a 69.0-cm-long string in a vertical circle. The string can withstand a tension of 15.0 N before breaking. (a) What is the tension in the string when the ball is at the top of the circle if its speed at that point is 3.50 m/s? _________ N (b) What is the maximum speed the ball can have at the bottom of the circle if the string does not break?...

A 5.39-kg ball hangs from the top of a vertical pole by a 2.45-m-long string. The...

A 5.39-kg ball hangs from the top of a vertical pole by a 2.45-m-long string. The ball is struck, causing it to revolve around the pole at a speed of 4.79 m/s in a horizontal circle with the string remaining taut. Calculate the angle, between 0° and 90°, that the string makes with the pole. Take g = 9.81 m/s2. What is the tension of the string?

A rock is tied to a string and spun in a circle of radius 1.4 m...

A rock is tied to a string and spun in a circle of radius 1.4 m as shown in the figure below. The speed of the rock is 13 m/s. (c) What is the total force on the rock directed toward the center of its circular path? Express your answer in terms of the (unknown) tension T in the string. (Use the following as necessary: ?.) F = (d) Apply Newton's second law along both the vertical and the horizontal...