Statics Problem !!! Help me !!!! Answer it this Problem Correctly!! Please give correct Solution Part BBlocks A and B have a masses of 130 kg and 280 kg, respectively. The coefficient of static friction between A and Band between B and C is 0.290. The coefficient of static frictionbetween the rope and peg E is 0.490. Pulley D rotates freely,and P 30.0 N. If 0=60.0 degrees, what is the smallestmagnitude, T, of tension, T, that causes block B to move?Express your answer numerically in kilonewtons to threesignificant figures.EYou did not open hints for this part.ANSWER:T 572.519 kNIncorrect; Try Again; 5 attempts remainingPABCT

Step 1:-Given data:-mass of block A is = 130kg.mass of the block B is = 280kg.Coefficient of static…

Answered: Part B Blocks A and B have a masses of…

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

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Consider the following mathematical model of a single-link flexible joint robotic manipulator (shown in the following figure) where the output of the system is y(t) = q₁(t), and I, m, g,l,k and are constants. lä(t) + MgLsin(q1(t)) + k(q1(t) - 92(t)) = 0 Jäz(t)-k(q1(t)-92(t)) = u(t) a) Linearize the nonlinear dynamics at the working point q₁ = q₁ = 92 = 92 = 0. b) For parameters I = 2,J = 1, k = 1, g = 10, M = 0.1, L = 1, find the transfer function from input u to the output y. 92 91 M, I
Q1: (Section A) Considering single degree undamped vibration system and Newton's equation as follow: më +kx=0; find the solution of the displacement equation [(t)=Cieiw,t+C2e-iw,t] for the case with: Wn = 2 rad/s, x (0) = 1 mm, and x(0) = v5 mm/s.
Vehicle Dynamics Question and formulas are in image. Reply formula for three-axle and draw please i need this answer do not reject
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Lagrange's equation can be used to find the dynamic model of the robot. Select one: True O False
can you pls provide the wxcat solution for quation of motion with complete explaition by hand written notes
5
Please use equations attached
Given: The link is connected to a collar which slides along bar AC. AC rotates with vector_ »AC= 3k (rad/s), vector_aAC= 2.4k (rad/s^2) A WAC, (AC ф- 55° 0= 25° Length of link BD= 0.2m, AB= 1.5m Find: D B The magnitude of the angular velocity of link BD The magnitude of angular acceleration of link BD. The relative acceleration of collar B.
1. Obtain the non-periodic B-spline curve of order 4 is defined by four control points: P0=(0,0,0), P1=(6,8,0), P2=(12,8,0), P3=(18,0,0) a. Rotate the curve around x axis by 180 degrees. b. Rotate the control points and obtain the B-spline after the rotation. c. Compare the B-spline equations obtained in a and b
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