COLLEGE PHYSICS
2nd Edition
ISBN: 9781464196393
Author: Freedman
Publisher: MAC HIGHER
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Chapter 5, Problem 17QAP
To determine
Why does water stay in a bucket that is whirled around in a vertical circle
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Chapter 5 Solutions
COLLEGE PHYSICS
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- A 200-kg object and a 500-kg object are separated by 4.00 m. (a) Find the net gravitational force exerted by these objects on a 50.0-kg object placed midway between them. (b) At what position (other than an infinitely remote one) can the 50.0-kg object be placed so as to experience a net force of zero from the other two objects?arrow_forwardA 1.00 KG mass is attached to the end of a 1.55m long rope and spun in a vertical circle at a speed of 6.67 m/s. Determine the Maximum and Minimum tensions in the rope.arrow_forwardA 1125-kg car and a 2250–kg pickup truck approach a curve on the expressway that has a radius of 225 m. At what angle (ROUNDED-OFF TO WHOLE NUMBERS) should the highway engineer bank this curve so that vehicles traveling at 65.0 miles per hour can safely round it regardless of the condition of their tires? (1.609 km = 1 mile)arrow_forward
- Apilot of mass 70 kg rides a fighter jet The fighter jet moves in a vertical circle of radius 100 m at a constant‘speed of 120 m/s. Determine the force exerted by the seat on the pilot at the top of the circle (note that the pilot is fastenedto the seat)arrow_forwardWhile at the carnival you go on a ride called “The Centripetal Monster”. This ride consists of a circularroom 3 meters in radius, which spins. You stand against the wall of the room as it spins. Once the ridereaches its maximum speed the floor drops away and you stick to the wall!(a) Draw a free body diagram of the forces acting upon you.(b) Assuming that the coefficient of static friction between you and the wall is 0.8, with what velocity mustthe room spin at so that you don’t fall?(c) What is your acceleration?arrow_forwardA pilot of mass 65.0 kg in a jet aircraft makes a complete vertical circle in mid-air. The vertical circle has a radius of 1.70 km at a constant speed of 215 m/s. Determine the force of the seat on the pilot at (a) the bottom of the loop and (b) the top of the loop. (Note that at the top of the loop, the aircraft is upside down.)arrow_forward
- Consider the gravitational attraction between the Earth and the Moon. Which pulls harder: the Earth on the Moon, or the Moon on the Earth, or are they the same? Explain.arrow_forwardIn an orbiting space shuttle, you are handed two identical boxes, one filled with sand and the other filled with feathers. How can you determine which is which without opening the boxes?arrow_forwardWhen you wirl a can at the end of a string in a circular path, what is the direction of the force you exert on the can?arrow_forward
- Is the force applied to drag the carriage affected by a change in inclination? Why?arrow_forwardA 25.0-g metal washer is tied to a 60.0-cm-long string and whirled around in a vertical circle at a constant speed of 6.00 m/s. Calculate the tension in the string when it is at the top of the path.arrow_forwardYou (assume m = 76 kg) are riding in a car moving at a constant speed of 12 m/s on a curved road of radius 10. m. What is the net force acting on you? (a) The net force cannot be determined without knowing the force of friction between the road and the car. (b) The net force cannot be determined without knowing the force of friction between you and the car. (c) The net force cannot be determined without knowing the normal force from the seat cushion on you. (d) None of the above are true.arrow_forward
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