Question 2 30 Points The 644 lb weight in the figure is lifted by a motor...
solve them clear please with formeula & FBD
The collar at O and attached shaft OC rotate about the fixed X-axis at a constant rate 1 = 4 rad/s. The circular disk with radius 300 mm rotates at an angular velocity of ) = 10 rad/s and accelerates at a rate of Ö = 2 rad/s2. An observer and xyz coordinate system are attached to the disk, as shown in the figure below The following equations are to be used...
Please solve it clear they solve it two time wrong , solve it
with find,given,FBD,formula ..thankyoooou ?????
The collar at O and attached shaft OC rotate about the fixed X-axis at a constant rate 1 = 4 rad/s. The circular disk with radius 300 mm rotates at an angular velocity of ) = 10 rad/s and accelerates at a rate of Ö = 2 rad/s2. An observer and xyz coordinate system are attached to the disk, as shown in the...
Planar Kinetics of a Rigid Body: Force and Acceleration 2. A cylinder weighing 600-lb is lifted by a using the mechanism shown. The two rotating drums turn as a single unit about their center of mass at O and they have a combined weight of 300-lb and a radius of gyration about O of 1.5 ft. If the motor at A pulls the cord with a constant tension P-450 lb: A) NEATLY draw an accurate free-body diagram and kinetic diagram...
PROBLEM 4: (30 POINTS) A 1,000 lb. WEIGHT IS HUNG FROM THE END OF A PIPE WHICH IS FASTENED TO A BALL & SOCKET JOINT AT A, AND SUPPORTED BY TWO CABLES CB & BD AS SHOWN. NEGLECTING THE WEIGHT OF THE PIPE, DETERMINE THE FORCES IN BOTH CABLES AND THE SUPPORT REACTION AT A. D Cable 4 60° 1 C. B Cable 1.000 lb 3 А Bar Ball & Socket Joint 6'
Part A-Finding the tension in cable AC A weight of 175 lb acts at C on the strut. Find the magnitude of the tension in cable AC. Learning Goal: Express your answer to three significant figures and include the appropriate units. To apply the condition of equilibrium to three- dimensional systems and solve for unknown forces. View Available Hint(s) As shown, a mass is being lifted by a strut that is supported by two cables AC and CD. The dimensions...
Three-Dimensional Force Systems cable AC Part A Finding the tension Learning Goal: weight of 115 lb acts at C on the strut. Find the magnitude of the tension in cable AC To apply the condition of equilibrium to three-dimensional systems and solve for unknown forces. Express your answer to three significant figures and include the appropriate units. View Available Hint(s) As shown, a mass is being lifted by a strut that is supported by two cables AC and CD. The...
write a MATLAB SCRIPT that will output A and B.
Problem 7.4 - Weight Supported by Two Cables PROBLEM DESCRIPTION This example is illustrated in the fure below. A weight W is supported by two cables anchored a distance D apart. The cable length Lan is given, but the length, Lac is to be determined. Each cable can support a maximum tension force equal to W. For the weight to remain stationary, the total horizontal force and total vertical force...
Question 16 1 pts A 50-kg block is at rest on a 150 slope. A force of 250 N is acting on the block up the slope parallel to it. If the block does not slide up the slope, what is the minimum value of the coefficient of static friction between the block and the slope? 0.528 0.566 O 0.510 O 0.260 Question 17 1 pts A force of 50-N directed 30° above the horizontal is applied to a 10-kg...
Question 1 Time Allowed: 2 hours The figure shows a transmission shaft. The steel solid shaft is 200 mm long between self-aligning bearings at A and B. Belt forces (in the same horizontal direction) are applied to a 120-mm diameter sheave at C. The left end of the shaft is connected to an electric motor attached to a clutch by means of a flexible coupling. Nothing is attach to the right end (it is free). Assuming the shaft has a...
CLASS ID#: (1) CONCEPT QUESTIONS & SHORT ANSWERS (30 PTS) (A) (10 pts) A latch spring is constructed from slender steel rod material assembled as shown. The ring has radius r and mass 3m. Each of the three straight links are length 2r and have mass m. Develop an expression (DO NOT SIMPLIFY) for the mass moment of inertial of this assembly about an axis perpendicular to the page through point O. ما B (B) (10 pts) Each of the...