1. Imagine you were to vertically whirl a 0.25 kg yo-yo around in a circle of ra
ID: 2141640 • Letter: 1
Question
1. Imagine you were to vertically whirl a 0.25 kg yo-yo around in a circle of radius 90 cm, taking care to keep the yo-yo traveling at a constant 3 m/s. At the top of the yo-yo's circle, what tension in the string is required to keep the yo-yo moving at this speed? 2.5 N 0.5 N 0.25 N 5 N 0.025 N 0.05 N2.A car is rounding a curve at too high a speed and about to lose traction and slide off the road. If the car had more passengers inside would this happen at the same speed, a lesser speed or a larger speed? Assume that the passengers are evenly distributed so that mass distribution is not a factor. It would happen at the same speed, as the centripetal force needed to round the curve and the frictional force that provides the centripetal force are both proportional to mass. It would happen at a lesser speed, as the frictional force that keeps them on the road is proportional to mass. It would happen at a larger speed, as the centripetal force needed to round the curve is proportional to mass. It would happen at a lesser speed, as the centripetal force needed to round the curve is proportional to mass. It would happen at a larger speed, as the frictional force that keeps them on the road is proportional to mass. None of the above
3.What centripetal force provided by the tension in the string is required to horizontally whirl a yo-yo of mass 0.25 kg around in a circle of radius 90 cm if the yo-yo is traveling at a constant speed of 3 m/s? 2.5 N 2.0 N 2.1 N 2.3 N 2.2 N 2.4 N
4.If while whirling around a yo-yo at a constant speed, the string breaks, immediately taking away the tension in the string. What would we expect to happen to the yo-yo 1. Imagine you were to vertically whirl a 0.25 kg yo-yo around in a circle of radius 90 cm, taking care to keep the yo-yo traveling at a constant 3 m/s. At the top of the yo-yo's circle, what tension in the string is required to keep the yo-yo moving at this speed? 2.5 N 1. Imagine you were to vertically whirl a 0.25 kg yo-yo around in a circle of radius 90 cm, taking care to keep the yo-yo traveling at a constant 3 m/s. At the top of the yo-yo's circle, what tension in the string is required to keep the yo-yo moving at this speed? 2.5 N 1. Imagine you were to vertically whirl a 0.25 kg yo-yo around in a circle of radius 90 cm, taking care to keep the yo-yo traveling at a constant 3 m/s. At the top of the yo-yo's circle, what tension in the string is required to keep the yo-yo moving at this speed? 2.5 N 1. Imagine you were to vertically whirl a 0.25 kg yo-yo around in a circle of radius 90 cm, taking care to keep the yo-yo traveling at a constant 3 m/s. At the top of the yo-yo's circle, what tension in the string is required to keep the yo-yo moving at this speed? 2.5 N 0.5 N 0.25 N 5 N 0.025 N 0.05 N
2.A car is rounding a curve at too high a speed and about to lose traction and slide off the road. If the car had more passengers inside would this happen at the same speed, a lesser speed or a larger speed? Assume that the passengers are evenly distributed so that mass distribution is not a factor. It would happen at the same speed, as the centripetal force needed to round the curve and the frictional force that provides the centripetal force are both proportional to mass. It would happen at a lesser speed, as the frictional force that keeps them on the road is proportional to mass. It would happen at a larger speed, as the centripetal force needed to round the curve is proportional to mass. It would happen at a lesser speed, as the centripetal force needed to round the curve is proportional to mass. It would happen at a larger speed, as the frictional force that keeps them on the road is proportional to mass. None of the above
3.What centripetal force provided by the tension in the string is required to horizontally whirl a yo-yo of mass 0.25 kg around in a circle of radius 90 cm if the yo-yo is traveling at a constant speed of 3 m/s? 2.5 N 2.0 N 2.1 N 2.3 N 2.2 N 2.4 N
4.If while whirling around a yo-yo at a constant speed, the string breaks, immediately taking away the tension in the string. What would we expect to happen to the yo-yo 0.5 N 0.25 N 5 N 0.025 N 0.05 N
2.A car is rounding a curve at too high a speed and about to lose traction and slide off the road. If the car had more passengers inside would this happen at the same speed, a lesser speed or a larger speed? Assume that the passengers are evenly distributed so that mass distribution is not a factor. It would happen at the same speed, as the centripetal force needed to round the curve and the frictional force that provides the centripetal force are both proportional to mass. It would happen at a lesser speed, as the frictional force that keeps them on the road is proportional to mass. It would happen at a larger speed, as the centripetal force needed to round the curve is proportional to mass. It would happen at a lesser speed, as the centripetal force needed to round the curve is proportional to mass. It would happen at a larger speed, as the frictional force that keeps them on the road is proportional to mass. None of the above
3.What centripetal force provided by the tension in the string is required to horizontally whirl a yo-yo of mass 0.25 kg around in a circle of radius 90 cm if the yo-yo is traveling at a constant speed of 3 m/s? 2.5 N 2.0 N 2.1 N 2.3 N 2.2 N 2.4 N
4.If while whirling around a yo-yo at a constant speed, the string breaks, immediately taking away the tension in the string. What would we expect to happen to the yo-yo 0.5 N 0.25 N 0.25 N 0.25 N 5 N 0.025 N 0.05 N
2.A car is rounding a curve at too high a speed and about to lose traction and slide off the road. If the car had more passengers inside would this happen at the same speed, a lesser speed or a larger speed? Assume that the passengers are evenly distributed so that mass distribution is not a factor. It would happen at the same speed, as the centripetal force needed to round the curve and the frictional force that provides the centripetal force are both proportional to mass. It would happen at a lesser speed, as the frictional force that keeps them on the road is proportional to mass. It would happen at a larger speed, as the centripetal force needed to round the curve is proportional to mass. It would happen at a lesser speed, as the centripetal force needed to round the curve is proportional to mass. It would happen at a larger speed, as the frictional force that keeps them on the road is proportional to mass. None of the above
3.What centripetal force provided by the tension in the string is required to horizontally whirl a yo-yo of mass 0.25 kg around in a circle of radius 90 cm if the yo-yo is traveling at a constant speed of 3 m/s? 2.5 N 2.0 N 2.1 N 2.3 N 2.2 N 2.4 N
4.If while whirling around a yo-yo at a constant speed, the string breaks, immediately taking away the tension in the string. What would we expect to happen to the yo-yo 0.05 N
2.A car is rounding a curve at too high a speed and about to lose traction and slide off the road. If the car had more passengers inside would this happen at the same speed, a lesser speed or a larger speed? Assume that the passengers are evenly distributed so that mass distribution is not a factor. 0.05 N
2.A car is rounding a curve at too high a speed and about to lose traction and slide off the road. If the car had more passengers inside would this happen at the same speed, a lesser speed or a larger speed? Assume that the passengers are evenly distributed so that mass distribution is not a factor. It would happen at the same speed, as the centripetal force needed to round the curve and the frictional force that provides the centripetal force are both proportional to mass. It would happen at the same speed, as the centripetal force needed to round the curve and the frictional force that provides the centripetal force are both proportional to mass. It would happen at the same speed, as the centripetal force needed to round the curve and the frictional force that provides the centripetal force are both proportional to mass. It would happen at the same speed, as the centripetal force needed to round the curve and the frictional force that provides the centripetal force are both proportional to mass. It would happen at a lesser speed, as the frictional force that keeps them on the road is proportional to mass. It would happen at a larger speed, as the centripetal force needed to round the curve is proportional to mass. It would happen at a lesser speed, as the centripetal force needed to round the curve is proportional to mass. It would happen at a larger speed, as the frictional force that keeps them on the road is proportional to mass. None of the above
3.What centripetal force provided by the tension in the string is required to horizontally whirl a yo-yo of mass 0.25 kg around in a circle of radius 90 cm if the yo-yo is traveling at a constant speed of 3 m/s? 2.5 N 2.0 N 2.1 N 2.3 N 2.2 N 2.4 N
4.If while whirling around a yo-yo at a constant speed, the string breaks, immediately taking away the tension in the string. What would we expect to happen to the yo-yo It would happen at a lesser speed, as the frictional force that keeps them on the road is proportional to mass. It would happen at a larger speed, as the centripetal force needed to round the curve is proportional to mass. It would happen at a lesser speed, as the centripetal force needed to round the curve is proportional to mass. It would happen at a larger speed, as the frictional force that keeps them on the road is proportional to mass. None of the above
3.What centripetal force provided by the tension in the string is required to horizontally whirl a yo-yo of mass 0.25 kg around in a circle of radius 90 cm if the yo-yo is traveling at a constant speed of 3 m/s? 2.5 N 2.0 N 2.1 N 2.3 N 2.2 N 2.4 N
4.If while whirling around a yo-yo at a constant speed, the string breaks, immediately taking away the tension in the string. What would we expect to happen to the yo-yo It would happen at a lesser speed, as the frictional force that keeps them on the road is proportional to mass. It would happen at a larger speed, as the centripetal force needed to round the curve is proportional to mass. It would happen at a lesser speed, as the centripetal force needed to round the curve is proportional to mass. It would happen at a larger speed, as the frictional force that keeps them on the road is proportional to mass. None of the above
3.What centripetal force provided by the tension in the string is required to horizontally whirl a yo-yo of mass 0.25 kg around in a circle of radius 90 cm if the yo-yo is traveling at a constant speed of 3 m/s? 2.5 N 2.5 N 2.5 N 2.5 N 2.0 N 2.1 N 2.3 N 2.2 N 2.4 N
4.If while whirling around a yo-yo at a constant speed, the string breaks, immediately taking away the tension in the string. What would we expect to happen to the yo-yo 2.0 N 2.1 N 2.3 N 2.2 N 2.4 N
4.If while whirling around a yo-yo at a constant speed, the string breaks, immediately taking away the tension in the string. What would we expect to happen to the yo-yo 2.0 N 2.1 N 2.3 N 2.2 N 2.4 N
4.If while whirling around a yo-yo at a constant speed, the string breaks, immediately taking away the tension in the string. What would we expect to happen to the yo-yo 2.4 N
4.If while whirling around a yo-yo at a constant speed, the string breaks, immediately taking away the tension in the string. What would we expect to happen to the yo-yo 2.4 N
4.If while whirling around a yo-yo at a constant speed, the string breaks, immediately taking away the tension in the string. What would we expect to happen to the yo-yo
Explanation / Answer
0.025N
2.1N
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