there are two children playing on a playground seesaw. one child has a mass of 25 kg the child sits on one end of the long uniform beam which has a mass of 20 kg. and another 45 kg child sits on the other end., the seesaw balances when a fulcrum is placed below the beam a distance of 1.50 m from the 25 kg-child, how long is the beam?
there are two children playing on a playground seesaw. one child has a mass of 25...
3. Two children are playing on a seesaw of negligible mass. The first child has a mass of 20.0 kg and sits 1.2 m from the pivot. (i) If the second child has a mass of 30.0 kg, how far is she from the pivot? (ii) What is the supporting force exerted by the pivot? 4. (a) Three point masses are attached to a massless rigid rod. Mass mi- 1.0 kg is located at x 1.0 cm, mass m 2.0...
Two children seat themselves on a seesaw. The one on the left has a weight of 400 Nwhile the one on the right weights 300 N. The fulcrum is at the midpoint of the seesaw. If the child on the left is not at the end but is 1.50 m from the fulcrum andthe seesaw is balanced, what is the torque provided by the weight of the child on the right?2.0 m is the correct answer.
child a o child a Two children are balanced on a seesaw of mass 11.0 kg. The first child has a mass of 26.0 kg and sits 1.60 m away from the pivot. The center of mass of the seesaw is 0.113 m from the pivot. (a) How far from the pivot does the second child sit if he has a mass of 31.0 kg? (b) What is the supporting force exerted by the pivot? LPivot center of mass
Two children are sitting on opposite ends of a scesaw of negligible mass. If 40 kg child is 2.0 m from the pivoted point, how far from the pivot point will the other 30 kg child sit on the seesaw to be at equilibrium? (draw diagram to show vectors) A uniform 2000 kg beam 10 m long supports a 500 kg weight 3 meters from the right support. Calculate the forces on each of the vertical support columns? (draw diagram...
A 20-kg child sits on a seesaw on the playground, 3.0 m from the pivot. A 2nd child is seated on the other side of the pivot and 2.00 m from the pivot. The mass of the second child needed to lift the first child off the ground is?
Two children are balanced on a seesaw of negligible mass. The first child has a mass of 26 kg and sits 5m from the pivot. If the second child has a mass of 30kg, how far is she from the pivot?
solve 2. Three children are playing on a see-saw. Child A has a mass of 35 kg, child B has a mass of 25 kg and child C has a mass of 25 kg. A) How far from the fulcrum must child A sit if the system is balanced. B) What upward force must the fulcrum apply to the see-saw to keep it in linear equilibrium? 0.75 m
Suppose two children are using a uniform seesaw that is 3.00 m long and has its center of mass over the pivot. The first child has a mass of 30.0 kg and sits 1.40 m from the pivot. (a) Calculate where the second 18.0 kg child must sit to balance the seesaw. (b) What is unreasonable about the result? (c) Which premise is unreasonable, or which premises are inconsistent? Please show work and explanations.
II. Two children are sitting on a massless 4.0 m long seesaw which has a pivot at the middle point. If one child, with a mass of 36 kg sits 1.2 m from the pivot, where must the other child, of mass 54 kg, sit so that the seesaw remains in equilibrium? a. 0.6 m b. 0.8 m c. 1.2 m d. 1.4 m e. None of the above
refer to pic A seesaw consists of a uniform board, which pivots at its iform board, which pivots at its center. A child of mass 25.0 kg Sits 2.00 m from the fulcrum. How far from the fulcrum (on the other side) musta 40.0 kg child sit for the seesaw to balance? a. b. c. d. 0.750 m 1.25 m 1.50 m 2.00 m 3.20 m