zht inelastic string connects two blocks of mass 1,5 kg and 2 kg respectively. A force oplied at an angle of 20° on block A. 20° 1,5 kg 2 kg force F of 8,25 N is applied on block A, the blocks move at a CONSTANT VELOCITY on the ph surface. Caloulate the horizontal component of the applied force F. (2) Calculate the magnitude of the normal force acting on block A. (3) Calculate the coefficient of kinetic friction between the blocks and the rough (4) surface. How will the frictional foroe on block A change if the angle of the force changes to (1) [10] 15°? Write down INCREASES, DECREASES or REMAINS THE SAME. tivity 9 arner constructs a push toy using two blocks with masses 1,5 kg and 3 kg réspectively. blocks are connected by a massless, inextensible cord. The leamer then applies a force of V at en angle of 30° to the 1,5 kg biock by means of a light rigid rod, causing the toy to e across a flat, rough, horizontal surface, as shown in the diagram below. 25 N 45kG The coeffiolent of kinetia friction (k) between the surface and each blook is 0,15. State Newton's Second Law of Motion in words. (2) Calculate the magnitude of the kinetic frictional force acting on the 3 kg block. (3) Draw a labelled free-body diagram showing ALL the forces acting on the 1,5 kg block. (5) Caloulate the magnitude of the: 9.4.1 Kinetic frictional force acting on the 1,5 kg block (3) Tension in the cord connecting the two blocks (5) [18] 9.4.2

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ivity 8 zht inelastic string connects two blocks of mass 1,5 kg and 2 kg respectively. A force oplied at an angle of 20° on block A, B. A 200 1,5 kg 2 kg force F of 8,25N is applied on block A, the blocks move at a CONSTANT VELOCITY on the ph surface. Caloulate the horizontal component of the applied force F. (2) Calculate the magnitude the normal force acting on block A. (3) Calculate the coefficient of kinetic frictlon between the blocks and the rough (4) surface. How will the frictional force on block A change if the angle of the force changes to (1) [10] 15°? Write down INCREASES, DECREASES or REMAINS THE SAME. tivity 9 arner constructs a push toy using two blocks with masses 1,5 kg and 3 kg réspectively. blocks are cơnnected by a massless, inextensible cord. The leaner then applies a force of V at en angle of 30° to the 1,5 kg block by means of a light rigid rod, causing the toy to e across a flat, rough, horizontal surface, as shown in the diagram below. 25 N The coeffiolent of kinetia friction (P«)' between the surface and each blook is 0,15. State Newton's Second Law of Motion in words. (2) Calculate the magnitude of the kinetic frictional force acting on the 3 kg block. (3) Draw a labelled free-body diagram showing ALL the forces acting on the 1,5 kg block. (5) Caloulate the magnitude of the: (3) Kinetic frictional force acting on the 1,5 kg block locks, 9.4.1 Tension in the cord connecting the two (5) (18] 9.4.2 26 JENN TRAINING & CONSULTANGY: GRADE 12