A stone is tied to a string (length L = 1.10 m) and whirled in a...
A stone is tied to a string (length L = 1.10 m) and whirled in a circle at the same constant speed in two different ways. First, the circle is horizontal, and the string is nearly parallel to the ground. Next, the circle is vertical. In the vertical case, the maximum tension in the string is 15.0% larger than the tension that exists when the circle is horizontal.
step 6: Draw the free-body diagram for the forces acting on the stone, when it is located at the bottom of its swing (Position 3). Keep in mind that you can no longer neglect the stone’s weight. Please use the blue vectors to indicate forces. You will be graded on the orientation and labeling of the vectors.
step 7: Write an expression for the centripetal force on the stone in terms of the forces in the free body diagram in Step 6, when the stone is moving on the vertical circle at Position 3
Homework Answers
A stone is tied to a string (length = 0.552 m) and whirled in a circle...
A stone is tied to a string (length = 0.552 m) and whirled in a circle at the same constant speed in two different ways. First, the circle is horizontal and the string is nearly parallel to the ground. Next, the circle is vertical. In the vertical case the maximum tension in the string is 5.30% larger than the tension that exists when the circle is horizontal. Determine the speed of the stone.
A stone is tied to a string and whirled at constant speed in a horizontal cirde....
A stone is tied to a string and whirled at constant speed in a horizontal cirde. The speed is then doubled without changing the length of the string. Afterward the magnitude of the acceleration of the stone is: A) the same B) twice as great C) four times as great D) half as great E) one-fourth as great 1 mi is equivalent to 1609 m so 55 mph is: O A) 15 m/s O B) 25 m/s 81 m/s OD)...
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A stone at the end of a sling is whirled in a vertical circle of radius = 1.28 m. The center of the sling is at a height = 1.63 m above the ground. The stone is released at point A when the sling is inclined at 30.0° above horizontal, as shown in the figure. If the centripetal acceleration of the stone immediately before release is 42.3 m/s2, at what horizontal distance (in m) does the stone land as measured...
A 25.0-g metal washer is tied to a 70.0-cm-long string and whirled around in a vertical...
A 25.0-g metal washer is tied to a 70.0-cm-long string and whirled around in a vertical circle at a constant speed of 6.00 m/s. 1) Calculate the tension in the string when the washer is at the bottom of the circular path. (Express your answer to three significant figures.) Submit 2) Calculate the tension in the string when it is at the top of the path. (Express your answer to three significant figures.) Submit
Chapter 05, Problem 46 Reviewing Interactive Solution 5.46 will help in solving this problem. A stone...
Chapter 05, Problem 46 Reviewing Interactive Solution 5.46 will help in solving this problem. A stone is ted to a string Clength - 0.619 m) and whirled in a cirde at the same constant speed in two different ways. First, the circie is horizontal and the string is nearly parallel to the ground. Next, the orde is vertical. In the vertical case the maximum tension in the string is 5.10% larger than the tension that exists when the circle is...
A 1.0 m string with a 5 g (.005 kg) stopper on the end is whirled...
A 1.0 m string with a 5 g (.005 kg) stopper on the end is whirled in a vertical circle. The speed of the stopper is 8 m/s at the top of the circle. What is the speed of the stopper at the bottom of the circle (Use energy conservation principle s)(answer 10.2 m/s), what is the tension in the string when the stopper is at at the top of the circle (.27N), What is the tension in the string...
You swing a rock tied to a string in a vertical circle. (A) Construct a consistent...
You swing a rock tied to a string in a vertical circle. (A) Construct a consistent force diagram for the rock as it passes the low point in its swing. Use two vectors (mg and Tbottom). (B) Determine the force that the string exerts on the rock. Express your answer in terms of vt (speed of the rock in the high point in its swing), R ( length of the string), m ( mass of the rock), and constant g.
A rock of mass 13 kg is tied to a string of length 2.5 m, with...
A rock of mass 13 kg is tied to a string of length 2.5 m, with the other end of the string fastened to the ceiling of a tall room. While hanging vertically, the rock is given an initial horizontal velocity of 2.1 m/s. How high will the rock swing? Express your answer in terms of the angle θ that the string makes with the vertical when the rock is at its highest point.
An air puck of mass 0.23 kg is tied to a string and allowed to revolve in a circle of radius 1.2 m on a frictionl...
An air puck of mass 0.23 kg is tied to a string and allowed to revolve in a circle of radius 1.2 m on a frictionless horizontal table. The other end of the string passes through a hole in the center of the table, and a mass of 0.9 kg is tied to it. The suspended mass remains in equilibrium while the puck on the tabletop revolves. a) What is the tension in the string? (b) What is the force...
A spherical mass on the end of a string is spinning in a vertical circle about...
A spherical mass on the end of a string is spinning in a vertical circle about point P. Which of the forces acting on the mass contribute to the "centripetal force" when the mass is in position A? Select all that apply. The tension in the string. The force of gravity (weight). The force of drag (air resistance). Which of the forces acting on the mass contribute to the "centripetal force" when the mass is in position B, directly to...
A stone is tied to a string and whirled at constant speed in a horizontal cirde. The speed is then doubled without changing the length of the string. Afterward the magnitude of the acceleration of the stone is: A) the same B) twice as great C) four times as great D) half as great E) one-fourth as great 1 mi is equivalent to 1609 m so 55 mph is: O A) 15 m/s O B) 25 m/s 81 m/s OD)...
A 25.0-g metal washer is tied to a 70.0-cm-long string and whirled around in a vertical circle at a constant speed of 6.00 m/s. 1) Calculate the tension in the string when the washer is at the bottom of the circular path. (Express your answer to three significant figures.) Submit 2) Calculate the tension in the string when it is at the top of the path. (Express your answer to three significant figures.) Submit
Chapter 05, Problem 46 Reviewing Interactive Solution 5.46 will help in solving this problem. A stone is ted to a string Clength - 0.619 m) and whirled in a cirde at the same constant speed in two different ways. First, the circie is horizontal and the string is nearly parallel to the ground. Next, the orde is vertical. In the vertical case the maximum tension in the string is 5.10% larger than the tension that exists when the circle is...
An air puck of mass 0.23 kg is tied to a string and allowed to revolve in a circle of radius 1.2 m on a frictionless horizontal table. The other end of the string passes through a hole in the center of the table, and a mass of 0.9 kg is tied to it. The suspended mass remains in equilibrium while the puck on the tabletop revolves. a) What is the tension in the string? (b) What is the force...
A spherical mass on the end of a string is spinning in a vertical circle about point P. Which of the forces acting on the mass contribute to the "centripetal force" when the mass is in position A? Select all that apply. The tension in the string. The force of gravity (weight). The force of drag (air resistance). Which of the forces acting on the mass contribute to the "centripetal force" when the mass is in position B, directly to...
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