If a 500lb rod that is 54 inches long is rotating at a pin at 4 rad/s^2, how can i find its linear and angular velocity?
the radius of gyration is 38 in
A long, uniform rod of length 0.530 mm and is rotating in a circle on a frictionless table. The axis of rotation is perpendicular to the length of the rod at one end and is stationary. The rod has an angular velocity of 0.35 rad/srad/s and a moment of inertia about the axis of 3.30×10−3 kg⋅m2kg⋅m2 . An insect initially standing on the rod at the axis of rotation decides to walk to the other end of the rod. When the...
Rod AB is attached to the rotating arm using ball-and-socket joints. If AC is rotating with a constant angular velocity of -0.3 rad/s about the pin at c, determine the angular velocity of link BD at the instant shown. Use the right-hand rule to interpret the direction of angular velocities. Report your answer with at least two decimal figure accuracy and include the unit. АС 1.5 ft 30 6 Ft 2 Ft
Let's start again with the station not rotating, and back to its
original size, with the rod again at 979 meters long. This time, we
would like to get the station rotating at a rate of 0.09 rad/s, but
now about an axis that passes straight down the length of the rod.
We will accomplish this by placing a pair of rocket engines as
shown, each again with a thrust of 3.9x10^6 N, on one of the
spherical end modules....
The rod CD is rotating with an angular velocity cp = 2 rad/s. Determine: i) The velocity of point and show its direction in the figure below ii) What is the angular velocity of link BC? iii)What is the velocity of points B and E? iv) What is the angular velocity of link AB? 0.2 m 0.2 m B E 0.4 m 30° WCD= 2 rad/s
question 1 and 2 please
1. A one-inch diameter steel rod is used as a pin-pin connected compression member. Calculate the critical load using Euler's formula. The proportional limit for the steel is 36,000 psi and the modulus of elasticity is 30,000,000 psi, (the radius of gyration for a circular section is d/4). Assume the length of the rod to be: A. 1.5 feet B. 4.5 feet Comment on the results of A and B. 2. A one-inch diameter steel...
7. The rod CD is rotating with an angular velocity 0cD = 2 rad/s. Determine: i) The velocity of point and show its direction in the figure below ii) What is the angular velocity of link BC? iii) What is the velocity of points B and E? iv) What is the angular velocity of link AB? (30 points) 0.2 m 0.2 m B E 0.4 m 30° CD= 2 rad/s D
7. The rod CD is rotating with an angular velocity OCD = 2 rad/s. Determine: i) The velocity of point C and show its direction in the figure below ii) What is the angular velocity of link BC? iii) What is the velocity of points B and E? iv) What is the angular velocity of link AB? 0.2 m 0.2 m В. E 0.4 m cd= 2 rad/s 30° D
7. The rod CD is rotating with an angular velocity cp = 2 rad/s. Determine: i) The velocity of point C and show its direction in the figure below ii) What is the angular velocity of link BC? iii)What is the velocity of points B and E? iv) What is the angular velocity of link AB? (3: 0.2 m 0.2 m В. E 0.4 m WCD= 2 rad/s 30° D
7. The rod CD is rotating with an angular velocity cp = 2 rad/s. Determine: i) The velocity of point C and show its direction in the figure below ii) What is the angular velocity of link BC? iii)What is the velocity of points B and E? iv) What is the angular velocity of link AB? (3: 0.2 m 0.2 m В. E 0.4 m WCD= 2 rad/s 30° D
7. The rod CD is rotating with an angular velocity cp = 2 rad/s. Determine: i) The velocity of point C and show its direction in the figure below ii) What is the angular velocity of link BC? iii)What is the velocity of points B and E? iv) What is the angular velocity of link AB? (3: 0.2 m 0.2 m В. E 0.4 m WCD= 2 rad/s 30° D