A 4-kg block A slides towards a double spring with corresponding spring constant as shown. The coefficient of kinetic friction between the block and inclined plane is μ = 0.2. (a) Determine the maximum distance d that block A would reach. Neglect the mass and width of the place that is attached to spring B Also, note that both springs are uncompressed prior to the impact of the block Hint: There is still friction between the block and the place even during the compression of the spring (use g= 9.807 m/s²) VA= 5.421 m/s KB = 400 N/m kc 1000 N/m 0.5m B C ming 5m d A

A 4-kg block A slides towards a double spring with corresponding spring constant as shown. The coefficient of kinetic friction between the block and inclined plane is μ = 0.2. (a) Determine the maximum distance d that block A would reach. Neglect the mass and width of the place that is attached to spring B Also, note that both springs are uncompressed prior to the impact of the block Hint: There is still friction between the block and the place even during the compression of the spring (use g= 9.807 m/s²) VA= 5.421 m/s KB = 400 N/m kc 1000 N/m 0.5m B C ming 5m d A

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

See similar textbooks

Similar questions

A 16-lb spool is at rest on an inclined surface. Around its center a cable is wound which travels with the same inclination of the ramp, passes through a frictionless pulley, and is attached to a block B at its other end.The coefficient of static friction between block B and the floor is 0.25. For the position shown, with the given value of α, determine: R (in) = 11,1 in r (in) = 7 in α (°) = 16° 1. The minimum coefficient of static friction that must exist between the reel and the floor of the ramp, so that the reel does NOT slide on the ramp (does not slip). 2.The minimum weight that block B must have for the reel to NOT roll down the ramp dragging block B. Do not allow for the possibility of the block turning or tipping over.
- Blocks A and B have a mass of 7 kg and 10 kg, respectively, and there are pulleys at C and D. Using the coefficients of static friction indicated, determine the following: 1- The smallest force P which can be applied to the cord that causes impending motion. 2- Does block B spill, flip over, or nothing happen? Prove that. 400 mm D B PAB=0.1 A P T 500 mm a=0.3
Give a detailed Handwritten solution,If it is a Chatgpt answer i will report.
6/4 The coefficients of statie and kinetic frietion between the 100-kg block and the inclined plane are 0.30 and 0.20, respectively. Determine (a) the friction force F acting on the block when P is applied with a magni- tude of 200 N to the block at rest, (6) the force P required to initiate motion up the incline from rest, and (e) the friction force F acting on the block if P 600 N. 100 kg 20 , = 0.30 H=0.20 15 Problem 6/4
A 1.6-kg sphere S is being moved in a vertical plane by a robotic arm. When the angle e is 38, the angular velocity of the arm about a horizontal axis through O is 55 deg/s clockwise and its angular acceleration is 205 deg/s² counterclockwise. In addition, the hydraulic element is being shortened at the constant rate of 440 mm/s. Determine the necessary minimum gripping force Pif the coefficient of static friction between the sphere and the gripping surfaces is 0.51. Compare Pwith the minimum gripping force P; required to hold the sphere in static equilibrium in the 38° position. 1.5 m Answers: P = i Ps= i
Q4. The ( 25 kg ) block is moving down the incline surface with an acceleration of ( a = 6 m/ sec"). Determine the coefficient of kinetic friction of the surface ( u ). 25kg Mk? 35°
Also draw the FBD of this problem
The force Pis applied to the 52-kg block when it is at rest. Determine the magnitude and direction of the friction force exerted by the surface on the block if (a) P = 0, (b) P = 184 N, and (c) P = 245 N. (d) What value of P is required to initiate motion up the incline? The static and kinetic coefficients of friction between the block and the incline are ug = 0.20 and µ = 0.16, respectively. The friction force is positive if up the incline, negative if down the incline. 52 kg 21° H, = 0.20 H = 0.16 13 Answers: (a) F= i N (b) F = i N (c) F= i N (d) P= i N
NEED ASAP
I need the answer quickly. Please