The answer to the problem is 1.00 m/s^2. Please show me how to get the final answer The sector rotates with a constant angular velocity w = 3 rad/s about a fixed axis throughO. Simultaneously, the particle A moves in the curved slot with constant speed u = 2 m/srelative to the sector. If r = 1 m, the absolute acceleration of particle A at the instant shownis most nearlyA. 0B. 1.00 m/s²C. 2.21 m/s²D. 3.21 m/s²E. 3.70 m/s²F. 4.33 m/s²G. 5.05 m/s²H. 6.00 m/s²I. 6.67 m/s²J. 8.10 m/s²นA=ω

Answered: Image /qna-images/answer/07eb9744-fd70-422b-bd3f-b0a25e5e0558.jpg

Answered: The sector rotates with a constant…

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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In the new model of the pump, water leaves the impeller with a velocity of 25 m/s and an acceleration of 30 m/s², measured relative to the impeller along the blade line AB. The impeller rotates at a constant angular velocity of w = 15 rad/s. B 30° 0.3 m A w = 15 rad/s a) We need to determine the velocity and acceleration of a water particle at point A as it leaves the impeller at the given instant. b) Shallow wells, dug wells, and hand pumps are commonly preferred due to their relatively simple construction and maintenance. Their depth ranges often align with the water requirements of rural communities, serving purposes like domestic use, livestock, and small- scale irrigation. Assist the engineering team in utilizing the provided tables to identify the optimal well type for this pump. Please provide a brief rationale for your choice.
3
3. The hydraulic cylinder C extends and causes the collar A to move and accelerate to the left. 3) If the length /= 1.5 ft, the angle = 33°, the linear velocity of collar A, VÀ is 5.5 ft/s, and the linear acceleration of collar A, a is 3.1 ft/s², determine the magnitude of the angular velocity, WAB, of rod AB. Please pay attention: the numbers may change since they are randomized. Your answer must include 2 places after the decimal point, and proper unit. X Your Answer: Answer k Ө units VA as ←
i need the answer quickly
solve step by step, image has partial answer
Subject Dynamics
3. For the ladder shown, pointBhas a velocity of V B=1.2 m/s and an acceleration aB=0.6 m/s2, both acting downward. Determine the acceleration of point A and the ladder's angular velocity in magnitude and direction.
6(a) The y-coordinate of a particle in curvilinear motion is given by y = 4.5t3 - 5.9t, where y is in inches and t is in seconds. Also, the particle has an acceleration in the x-direction given by ax = 9.6t in./sec2. If the velocity of the particle in the x-direction is 12.9 in./sec when t = 0, calculate the magnitudes of the velocity v and acceleration a of the particle when t = 1.4 sec. Construct v and a in your solution.
2. A highway ramp is three-quarters of a circle with a radius of 50m. A car enters the ramp at Point A with a speed of 5 m/s. a. What is the constant tangential acceleration, a_T, so that the car will reach 15 m/s just as it gets to the end of the ramp? b. What is the total acceleration of the car at Point B? view from the top gravity into the page - A VA = 5 m/s aT = ? VB = 15 m/s B R = 50 m
Q2) The bent flat bar rotates about a fixed axis through point O. The angle can be found at any instant according to this relation = π * sin(t), where is in rad and t is in seconds. At this instant, determine the instantaneous velocity and acceleration of point A. Note: w = è, a = Ö. Also, you must change the angle from (Degree) to (Rad) 30° L--x A 0.3 m 105⁰ 0.5 m
Q2: The particle P starts from rest at point A at time and changes its speed thereafter at a constant rate of 2g as it follows the horizontal path shown. Calculate the magnitude and direction of its total acceleration for the following: (1) just before point B, (2) just after point B, and (3) As it passes point C. તd PDOW State your directions relative to the x-axis shown (CCW positive). P 3 m B 3.5 m Q
4. Car A is accelerating in the direction of its motion at the rate of 4 ft/sec². Car B is rounding a curve of 440-ft radius at a constant speed of 44 ft/s. Find the vectors and magnitude of (a) velocities Vgand vg and (b) acceleration a gand aglike we did in our class. Determine the (c) velocity VB/A and (d) acceleration aB/A and which car B appears to if car A has reached a speed of 66 ft/s for the positions represented. y x- 30 440 NOT allowed to use Chegg or other such websites. L e Type here to search Lenovo F11 F9 F10 F7 F8 F6 区 F1 F5 Esc F3 F4 F2 FnLock & %23 4 5 7 00 %24

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