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A cyclist reaches the bottom of a hill with a speed of 18 m/s. Neglecting air...
1) A bicyclist is traveling at 25 km/hr when he encounters a 90 m hill. Neglecting road and wind resistance: a) If the hill is going up, what vertical elevation could the cyclist achieve without pedaling? b) If the hill is going down, what speed would the bicyclist achieve without pedaling?
Your toss a ball straight up with an initial speed of 6.4 m s-1. Neglecting air resistance, how long is it in the air above your height? Answer seconds
4. A 76-kg car driver reaches the bottom of a hill moving at a speed of v= 20 m/s. This bottom of the hill forms the arc of a circle whose radius is 200 m, as shown. (a) At this bottom of the hill, what is the magnitude /r = 200 m of the centripetal acceleration of the driver? (b) Find the force exerted on the driver by the car seat at this bottom of the hill. [(a) 2 m/s;...
A 4,500-kg roller coaster cart has a speed of 4.76 m/sm/s when it reaches its first peak at a 99.0 mm height from the ground level. After descending, it climbs up the second hill which is 84.2 mm above the ground level. How fast is the roller coaster cart at the top of the second hill? Assume there is no friction with the rails and no air resistance during the cart's motion.
5. A 1000-kg car is at the top of a hill as shown, where its elevation above the bottom of the hill is 120 m. a. What is its gravitational potential energy? 120 m b. If the cart starts from rest and rolls down the hill with negligible friction and air resistance, what will its kinetic energy be when it reaches the bottom? c. What will be its speed when it reaches the bottom? Suppose instead that there is noticeable...
A 1750kg car starts at the bottom of a 20m tall hill traveling at 15 m/s. During the trip up the hill, air resistance does -50 kJ of work on the car, and friction does an additional -120 kJ of work on the car. What is the minimum amount of work the engine must do in order for the car to reach the top of the hill?
A ball is thrown straight upward in the air at a speed of 15.0 m/s. Ignore air resistance. a) What is the maximum height the ball will reach? b) What is the speed of the ball when it reaches 5.00 m?c) How long will the ball take to reach 5.00 m above its initial position on the way up? d) How long will the ball take to reach 5,00 m above its initial position on its way down?
Question 8 2 points Save A cyclist, riding a bicycle at an initial speed vo = 7.00 m/s, goes over a big bump on the road. The height of the bump is h = 2.00 m, and the top of the bump is circular, with a radius R = 4.00 m. The total mass the cyclist and bike is m = 80 kg. Neglecting friction and air resistance, and assuming that the cyclist is not pedaling, calculate: (a) the cyclist's...
Starting from rest, a basketball rolls from the top to the bottom of a hill, reaching a translational speed of 6.2 m/s. Ignore frictional losses. (a) What is the height of the hill? (b) Released from rest at the same height, a can of frozen juice rolls to the bottom of the same hill. What is the translational speed of the frozen juice can when it reaches the bottom? (a) Number 2.74 Units
10.you are asked to design a friction-less playground slide such that the speed a child reaches at the bottom does not exceed 19 m/s. determine the maximum height (in meters) that the slide can be.