PROBLEM 17,101 A 45-g bullet is fired with a velocity of 400 m/s at 0 =...
please do not just copy solution manual.. PROBLEM 17,101 A 45-g bullet is fired with a velocity of 400 m/s at 0 = 30° into a 9-kg square panel of side b = 200 mm. Knowing that h=150 mm and that the panel is initially at rest, determine (a) the velocity of the center of the panel immediately after the bullet becomes embedded, (b) the impulsive reaction at A, assuming that the bullet becomes embedded in 2 ms.
(6 Points) - Problem 4: A 45 g bullet is fired with a velocity of 400 m/s at 0=5° into a 9 kg square panel of side b=200 mm. Knowing that the panel is initially at rest, determine (a) the required distance h if the horizantal component of the impulsive reation at A is to be zero, (b) the corresponding velocity of the center of the panel immediately after the bullet becomes embedded.
NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. A 45-g bullet is fired with a velocity of 460 m/s at 0 = 5° into a 9-kg square panel of side b= 200 mm. The panel is initially at rest. Determine the corresponding velocity of the center of the panel immediately after the bullet becomes embedded. (You must provide an answer before moving on to the next part.) The...
A bullet weighing 0.08 lb is fired with a horizontal velocity of 1800 ft/s into the lower end of a slender 19-lb bar of length L 30 in. The bar is initially at rest and h 12 in. Vo References eBook & Resources Section Break Difficulty: Easy 10.00 points Determine the impulsive reaction at C, assuming that the bullet becomes embedded in 0.001 s. (Round the final answer to two decimal places.) The impulsive reaction at C is lb-
Problems 3: The S-kg disk is pinned with a frictionless pin at O. A 10-g bullet is fired with v 800 m/s into the edge of the disk, and the bullet becomes embedded in it. Answer the following questions embedded in its edge. Ignore the dimension of the bullet. The gravity acts downward just after the bullet becomes 0.2 m 3.1 The angular velocity of the disk is rad's. (A) 2.01 (B) 3.99 (C) 6.32 (D) 4.65 (E) 5.32 (F)...
A 600 g bullet is fired with an initial velocity of 890 m/s and embeds into a 10 kg block that is initially at rest. Assume that there is enough friction so that the bullet-block system immediately begins moving after impact. What are the a) final velocity and b) final kinetic energy of the system? c) Is the kinetic energy of the system conserved?
Problems 3: The 5-kg disk is pinned with a frictionless pin at O A 1 bullet is fired with v-800 m/s into the edge ot the disk, and the embedded in its edge. Ignore the dimension of the bullet. The gravity acts downward. bullet becomes embedded in it. Answer the following questions just after the bullet becomes 0.2 m 3.1 The angular velocity of the disk israds (A) 2.01 (B) 3.99 (C) 6.32 (D) 4.65 (E) 5.32(F) 7.39 nc 3.2...
A 10.0 g rifle bullet is fired with a speed of 370 m/s into a ballistic pendulum with mass 7.00 kg , suspended from a cord 70.0 cm long. A) Compute the initial kinetic energy of the bullet; B) Compute the kinetic energy of the bullet and pendulum immediately after the bullet becomes embedded in the pendulum. C) Compute the vertical height through which the pendulum rises.
PRINTER VERSON 4BACK Chapter 4, Problem 4/080 A 69-g bullet is fired horizontally with a velocity v-335 m/s into the slender bar of a 1.6-ko pendulum initially at rest. If the bullet embeds itself in the bar, compute the resulting angular velocity of the pendulum immediately after the impact. Treat the sphere as a particle and neglect the mass of the rod. Why is the finear momentum of the system not conserved? 325 mm 69 q 170 mm 1.6 kg...
4. A 20 g bullet fired horizontally moves at a rate of 300 m/s, hits and embeds in a 10 kg target which is initially at rest. If the target can move freely, Determine the impulsive force exerted by the target on the bullet. (30 points)