15 rad/ sec in the picture solution approach. Sketch Free Body and Kinetic diagrams where appropriate....
Q3) (10 Points) A rod with mass of 20 kg is rotating at 5 rad/s at the instant shown. A moment of 60 N·m is applied to the rod. Find: The angular acceleration a and the reaction at pin O when the rod is in the horizontal position. Draw Free body and kinetic diagrams. 60 Nm 10 = 5 rad/s
It is also required to draw the kinetic and free body diagrams The stick-man has just jumped off of the diving board and has an angular velocity of wi = 0.5 rad What will be his angular velocity if he tucks into a disk? Assume that his initial shape is approximated by a slender rod with a length of 1 = 1.8m, and that his final shape is a uniform disk with a diameter of Ø = 0.65 m. Being...
Rod OA rotates counterclockwise with a constant angular velocity of θ = 5 rad/s. The double collar B is pin-connected together such that one collar slides over the rotating rod and the other slides over the horizontal curved rod, of which the shape is described by the equation r = 1.5(2-cosθ)ft. (Figure 1) Part AIf both collars weigh 0.80 lb, determine the magnitude of the normal force which the curved rod exerts on one collar at the instant θ = 135°....
Please draw any relevant free body diagrams Question7 At the given instant member AB has the angular motions shown. Determine the velocity and acceleration of the slider block C at this instant. 7 in 3 rad/s 2 rade 5 in.
The crank OA rotates in the vertical plane with a constant clockwise angular velocity ωo=4.5 rad/s. For the position when OA is horizontal, (a) determine the angular acceleration of the uniform 10 kg slender bar AB and the horizontal and vertical components of the acceleration of its center of mass. Use the methods of kinematics (Ch 16) to establish both the magnitude and direction → or ← for aG and; CW or CCW for αAB) of each variable. (b) Draw complete free body...
Please solve problem 2 showing all steps and free body diagrams. 6.10 Problems Problem 6.1. A man is performing dumbbell kickbacks to strengthen his triceps (Fig. P.6.1). He weighs 55 kg. His forearm and his hand together constitute 2.5% of his body weight. The length of his forearm is 26 cm. The lever arm of the triceps with respect to the center of rotation of el- bow is 2.4 cm. The weight he carries is equal to 5 kg. Assuming...
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...
Plzz answer and show all work for the questions below. Including any Free body diagrams. A 0.50 kg ball is attached to al and the entially ch, the ball is at point A (with the rod horizontal) 2.00 m/s: The ball has an internal thruster s attached to a light rod of radius R (-1.20m). When the experimenter starts her stonwatch the ball is at point A and the ball is moving with speedy. 2.00 m/s: The ball has an...
5:16 lLTE ) Done 1 of 5 Assessment #1 (Kinematics of a Particle) Rectilinear Motion (Straight linc Motion 3. The position of a point during the interval of time from r otor 6 is given by ** * m. (a) What is the maximum velocity during this interval of time, and at what time does it occur? (b) What is the acceleration when the velocity is a maximum? (20 m/s, 0 m/s 3. A test projectile is fired horizontally into...