Textbook QuestionA ball is attached to a horizontal cord of length ℓ whose other end is fixed, Fig. 8–45. (a) If the ball is released, what will be its speed at the lowest point of its path? <IMAGE>149views
Textbook QuestionA ball is attached to a horizontal cord of length ℓ whose other end is fixed, Fig. 8–45. (b) A peg is located a distance h directly below the point of attachment of the cord. If h = 0.80ℓ, what will be the speed of the ball when it reaches the top of its circular path about the peg?<IMAGE>247views
Textbook QuestionThe small mass m sliding without friction along the looped track shown in Fig. 8–47 is to remain on the track at all times, even at the very top of the loop of radius r. (a) In terms of the given quantities, determine the minimum release height h.<IMAGE>164views
Textbook QuestionThe small mass m sliding without friction along the looped track shown in Fig. 8–47 is to remain on the track at all times, even at the very top of the loop of radius r. (b) If the actual release height is 2h, calculate the normal force exerted by the track at the bottom of the loop, then175views
Textbook QuestionThe small mass m sliding without friction along the looped track shown in Fig. 8–47 is to remain on the track at all times, even at the very top of the loop of radius r. (c) by the track at the top of the loop, and (d) by the track after the block exits the loop onto the flat section.<IMAGE>177views
Textbook Question(II) Suppose the roller-coaster car in Fig. 8–33 passes point 1 with a speed of 1.30 m/s. If the average force of friction is equal to 0.23 of its weight, with what speed will it reach point 2? The distance traveled is 45.0 m.93views