The "Giant Swing' at a county fair consists of a vertical central shaft with a number of horizontal arms attached at its upper end. Each arm supports a seat suspended from a cable 5.00 m long, the upper end of the cable being fastened to the arm at a point 3,00 m from the central shaft. (Figure 1)
Part A
Find the time of one revolution of the swing if the cable supporting a seat makes an angle of 30.0 with the vertical.
Part B
Does the angle depend on the weight of the passenger for a ven rate of revolution?
The "Giant Swing' at a county fair consists of a vertical central shaft with a number of horizontal arms attached at its upper end
The "Giant Swing at a county fair consists of a vertical central shaft with a number of horizontal arms attached tits upper end. (See the figure below (Figure 1)) Each arm supports a seat suspended from a 500 m-long cable, the upper end of which is fastened to the arm. Take R-250 m - Part A Find the time of one revolusion of the swing the cable supporting the seat makes an angle of 380" with the vertical 80 AE...
The "Giant Swing" at a county fair consists of a vertical central shaft with a number of horizontal arms attached at its upper end as shown in (Figure 1). Each arm supports a seat suspended from a 5.00 m -long rod, the upper end of which is fastened to the arm at a point 1.80 m from the central shaft.Find the time of one revolution of the swing if the rod supporting the seat makes an angle of θ =...
2. (35 number of horizontal arms attached at its upper supports a seat suspended from a cable that is 5.00 m long with the upper end of the cable 123 k pts) The giant swing at a county fair consists of a vertical central shaft with a end as shown in the figure. Each arm to an arm that is 3.00 m long. The mass of the person and swing together is g. A) What is the tension in the...
A giant swing at an amusement park consists of a 320-kg uniform arm 10.0 m long, with two seats of negligible mass connected at the lower end of the arm. 10.0 m (a) How far from the upper end is the center of mass of the arm? Score: 1 out of 1 Comment: (b) The gravitational potential energy of the arm is the same as if all its mass were concentrated at the center of mass. If the arm is...