In the figure, a 3.6 kg block slides along a track from one level to a...
a block slides along a track from one level to a higher level after passing through a valley. The track is frictionless until the block reaches the higher level. On the rough surface, a frictional force stops the block in a distance d. The block's initial speed vo is 6.0 m/s, the height difference h is 1.1 m, and uk is 0.60. Find d. (Ignore air resistance) of estion Select one: O a. 4.5 m O b. 1.16 m C....
In the figure, a 3.7 kg block slides along a track from one level to a higher level after passing through an intermediate valley. The track is frictionless until the block reaches the higher level. There a frictional force stops the block in a distance d. The block's initial speed is v0 = 5.1 m/s, the height difference is h = 1.2 m, and μk = 0.585. Find d.
1a. 1b. In the figure below, a block slides along a track from one level to a higher level after passing through an intermediate valley. The track is frictionless until the block reaches the higher level. There a frictional force stops the block in a distance d. The block's initial speed is vo; the height difference is h and the coefficient of kinetic friction is Wk. Find d in terms of the given variables (use g where applicable). u-0- In...
a ball is thrown verticaly upword .neglecting air resistance , which one of the a block slides along a track from one level to a higher level after passing through a valley. The track is frictionless until the block reaches the higher level. On the rough surface, a frictional force stops the block in a distance d. The block's initial speed vo is 6.0 m/s, the height difference h is 1.1 m, and Uk is 0.60. Find d. (Ignore air...
Physics I. Unit : potential energy and conservation of energy. In the figure, a 4.1 kg block slides along a track from one level to a higher level after passing through an intermediate valley. The track is frictionless until the block reached the higher level. There a frictional force stops the block in a distance d. The block's initial speed is v_0 = 6.3 m/s, the height difference is h = 1.1 m, and mu_k = 0.621. Find d.
A block slides from rest, along a track with an elevated left end, a flat central part, into a relaxed spring, as shown in the figure. The curved portion of the track is frictionless, as well as the first portion of the flat part of L = 10 cm. The coefficient of kinetic friction between the block and the only rough part, D = 10 cm, is given by k = 0.20. Let the initial height of the block be...
A 0.40 kg block slides along a small track with elevated ends and a flat central part. The flat part has a length L = 1.46 m . The curved portions of the track are frictionless, but for the flat part the coefficient of kinetic friction is 0.135. The block is released from rest from a height h = 74 cm on the left curved portion of the track. Calculate the maximum height reached by the block on the right...
Question 5 In the figure, a block of mass m = 3.50 kg slides from rest a distance d down a frictionless incline at angle 9 = 27.0° where it runs into a spring of spring constant 470 N/m. When the block momentarily stops, it has compressed the spring by 20.0 cm. What are (a) distance d and (b) the distance between the point of the first block-spring contact and the point where the block's speed is greatest? A (a)...
A block of ice slides along a frictionless horizontal track with a speed of 1.2 m/s. At the end of the track is a horizontally mounted spring. The ice block slides along the track until it makes contact with the spring causing it to compress. What is the speed of the ice block when the spring has been compressed by 60% of the maximum compression length?
The track in the figure shown descends through a distance h and is frictionless except for the lower section where the coefficient of kinetic friction is uk. The block, with mass m, slides along the track and comes to a stop in a certain distance D because of friction. Assume that the block had no initial velocity. (a) Derive expressions (with clear explanations) for; (i) the speed of the block v as it enters the frictional section and kinetic friction,...