A smooth can C, having a mass of 5 kg, is lifted froma feed at A to a ramp at B by a rotating rod. The rodmaintains a constant angular velocity of 0 = 0.5 rad/s,Neglect the effects of friction in the calculation and thesize of the can so that r= (1.2 cos 0) m. The rampfrom A to B is circular, having a radius of 600 mm(Figure 1)Figure1 of 1030.5 rad/s600 mm600 mm Determine the magnitude of the force which the rod exerts on the can at the instant 0 = 30°Express your answer to three significant figures and include the appropriate units.F =ValueUnits

Given: θ˙=0.5 rad/sθ¨=0r=1.2 cosθm=5 kgr=600 mm

A smooth can C, having a mass of 5 kg, is lifted from a feed at A to a ramp at B by a rotating rod. The rod maintains a constant angular velocity of 0 = 0.5 rad/s, Neglect the effects of friction in the calculation and the size of the can so that r from A to B is circular, having a radius of 600 mm. (Figure 1) (1.2 cos 0) m. The ramp Figure 1 of 1 B 0 = 0.5 rad/s 600 mm 600 mm

A smooth can C, having a mass of 5 kg, is lifted from a feed at A to a ramp at B by a rotating rod. The rod maintains a constant angular velocity of 0 = 0.5 rad/s, Neglect the effects of friction in the calculation and the size of the can so that r from A to B is circular, having a radius of 600 mm. (Figure 1) (1.2 cos 0) m. The ramp Figure 1 of 1 B 0 = 0.5 rad/s 600 mm 600 mm

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

roblem 8.45 To get a flat, uniform cylindrical satellite spinning at the correct rate, engineers fire four tangential rockets as shown in the figure (Figure 1). Suppose that the satellite has a mass of 3600 kg and a radius of 2.6 m, and that the rockets each add a mass of 250 kg Part A What is the steady force required of each rocket if the satellite is to reach 25 rpm in 2.0 min starting from rest? Express your answer to two significant figures and include the appropriate units. HA ? Figure 1 of 1 R End view of cylindrical satellite F= Value Units Submit My Answers Give Up Incorrect; Try Again; 4 attempts remaining Provide Feedback Continue
A "swing ride" is shown in the figure. Calculate the necessary angular velocity w for the swings to assume an angle 8 = 29° with the vertical. Neglect the mass of the cables and treat the chair and person as one particle. Assume r = 4.7 m, L = 5.7 m. Answer: w= i 0 8 rad/s
Question 2 Determine the acceleration and time taken by the rolling disc to cover a distance of 91 cmf or the large disc with following value, m=960 g R=11cm, r=6.4 mm, Inclined Plane angle =3°. 三 hp
Consider a solid circular cylinder of mass m = 6 kg and radius R = 0.6 m, rolling down an incline with angular velocity given by 7 t rad/s. At time t = 6 s, calculate the magnitude of angular momentum of the cylinder about its center of mass.
The crane shown in the figure is lifting a 186-kg crate upward with an acceleration of 4.21 m/s². The cable from the crate passes over a solid cylindrical pulley at the top of the boom. The pulley has a mass of 195 kg. The cable is then wound onto a hollow cylindrical drum that is mounted on the deck of the crane. The mass of the drum is 136 kg, and its radius (the same as that of the pulley) is 0.198 m. The engine applies a counterclockwise torque to the drum in order to wind up the cable. What is the magnitude of this torque? Ignore the mass of the cable. Pulley- Drum Boom Number I Units N-m
A2 Mg car has its mass with center at G. Calculate the acceleration of the car if u_k between the road and the wheels is 0.25. The wheel at point A are freely rotates and the driving wheels at point B are slipping. The mass of the wheels is small compared with the total mass of the car. 0.3m 1.25 0.75
The bar AB is uniform and has a mass of 50.0 kg. At the moment shown, the rod has an angular velocity of 4.00 rad/s and spring is stretched by 0.30 m. The force constant of the spring is 25.0 N/m.a) Determine whether or not the bar will reach the horizontal position.b) If the bar becomes horizontal, calculate its angular velocity at that position. If not, calculate the angle the bar makes with the horizontal when it comes to rest momentarily.
b/ Calculate the kinetics of the copper electron and the kinetics of the silver electron, given that their specific resistance is 1.8×10-³ ohm m and 1.6×10-³ ohm m respectively, and their mass densities 8.93×10³ kg/m³ and 10.49 kg/m³ The atomic weight of copper is 63.54 and silver is 107.9.
Mechanical Engineering Question
Circle final answer with the correct units unit should be rad/s
Please don't provide handwritten solution ....
The uniform slender rod, witha mass of 9.6 kg and a length ofE = 0.76 m, is fixed to a light vertical shaft at 0. The shaft can rotate freely in the stationary socket on the floor. A constant moment of M 11.8 N m is applied to the shaft, as indicated. What is the magnitude of the angular acceleration (in rad/s) of the rod? The rod moves in a horizontal plane.