Learning Goal:To set up and solve the equations of motion usingrectangular coordinates.Part B- The acceleration of the collar after it has moved a certain distanceThe 3.5 -kg collar shown has a coetficient of kinetic frictionHk = 0.2 with the shaft. The spring is unstretched whens =0 and the collar is given an initial velocity ofvo = 18.2 m/s. The unstretched length of the spring isd = 1.5 m and the spring constant is k- 57.4 N/m.(Figure 1)What is the acceleration of the collar ater it has moved 4.5 m?Express your answer to three significant figures.• View Avallable Hint(s)VO AEd| itvec?52.414m/sSubmitPrevious Answersx Incorrect; Try Again; 5 attempts remainingFigure1 of 1>Part C- The speed of the collar after it has moved a certain distancetoWhat is the speed of the collar after it has moved 4.5 m?Express your answer to three significant figures and include the appropriate units.• View Available Hint(s)ValueUnits

(b) Consider the free body diagram shown below for the given condition.

Answered: To set up and solve the equations of…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

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For the problem related to Fundamental.6 sketches of the system showing: • the respective velocity and acceleration and the frame of reference considered • the forces acting on the system of considered, in other words, a free body diagram (FBD) are mandatory. Their absences will automatically make the problem false. F The 77-kg man pushes on the 120-kg crate with a horizontal force F. The coefficient of static friction between the man's shoes and the surface is 0.82. What must be the coefficient of kinetic friction between the crate and the surface if we observe an acceleration of the crate of 2.1 m/s²? Type your answer in the cell below.
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4. A slender, rigid bar of mass m and length I is pinned to a massless collar as shown in the figure below. The collar and bar are initially stationary and slide on a frictionless rod. A force F is applied to the collar in the horizontal direction. Determine the acceleration of the collar at the instant that this force is applied. P Fight
A box with mass m = 2.75 kg rests on the top of a table. The coefficient of static friction between the box and the table is μs = 0.71 and the coefficient of kinetic friction is μk = 0.34. Write an expression for Fm the minimum force required to produce movement of the box on the top of the table. Solve numerically for the magnitude of the force Fm in Newtons. Write an expression for a, the box's acceleration, after it begins moving. (Assume the minimum force, Fm, continues to be applied.) Solve numerically for the acceleration, a in m/s2.
A small object A is held against the vertical side of the rotating cylinderical container of raidus r due to entrifugal action the coefficient of astatic friction between the object and the container is , determine the expression for the maximum rotational rate co of the container which will keep the object from slipping out the vertical side. Fanpas (Fry: Mos FMS.N Fn-man +N=mrw +N=mYw² {fy.g +4₁ (norw')= ndg
300 mm 3. The spool shown has a mass of 80 kg, a radius of gyration of kg of 200 mm, and outer inner radii of 300 mm and 150 mm, respectively. If a force P of 200 N is applied vertically to the cable shown, what is the 150 mm accleration of G? The coefficient of static and dynamic friction are 4. = 0.12 and fk = 0.08, respectively.

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