Please help. This problem involves finding the magnitude of the normal force of a weight inside a tube. Thank you. Q4. 3/44 from book, numbers changed. The hollow tube is pivoted about a horizontal axisthrough point O and is made to rotate in the vertical plane with a constant counterclockwiseangular velocity Ô = 3 rad/sec. If a 0.2 kg particle is sliding in the tube toward O (as shown infigure below) with a velocity of 6 m/sec relative to the tube when the position 0 = 30 degrees ispassed, calculate the magnitude N of the normal force exerted by the wall of the tube on theparticle at this instant. Assume the inside of the tube is frictionless.

The tube is rotating with a constant angular velocity, ω=3 rad/sA particle enters the tube, which…

Q4. 3/44 from book, numbers changed. The hollow tube is pivoted about a horizontal axis through point O and is made to rotate in the vertical plane with a constant counterclockwise angular velocity = 3 rad/sec. If a 0.2 kg particle is sliding in the tube toward O (as shown in figure below) with a velocity of 6 m/sec relative to the tube when the position 0 = 30 degrees is passed, calculate the magnitude N of the normal force exerted by the wall of the tube on the particle at this instant. Assume the inside of the tube is frictionless.

Q4. 3/44 from book, numbers changed. The hollow tube is pivoted about a horizontal axis through point O and is made to rotate in the vertical plane with a constant counterclockwise angular velocity = 3 rad/sec. If a 0.2 kg particle is sliding in the tube toward O (as shown in figure below) with a velocity of 6 m/sec relative to the tube when the position 0 = 30 degrees is passed, calculate the magnitude N of the normal force exerted by the wall of the tube on the particle at this instant. Assume the inside of the tube is frictionless.

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Question

Please help. This problem involves finding the magnitude of the normal force of a weight inside a tube. Thank you.

Q4. 3/44 from book, numbers changed. The hollow tube is pivoted about a horizontal axis
through point O and is made to rotate in the vertical plane with a constant counterclockwise
angular velocity Ô = 3 rad/sec. If a 0.2 kg particle is sliding in the tube toward O (as shown in
figure below) with a velocity of 6 m/sec relative to the tube when the position 0 = 30 degrees is
passed, calculate the magnitude N of the normal force exerted by the wall of the tube on the
particle at this instant. Assume the inside of the tube is frictionless.

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