Sibusiso ties two blocks together by a short length of very light string that does not stretch. The two blocks have masses of 4 kg and 6 kg, as shown in the following diagram. A force of 100 N pulls the 6 kg block to the right There is a constant frictional force of 10 N that acts between the surface and each of the two blocks. 100 N 60 4 kg 6 kg Draw a labelled force diagram for each block. Indicate the frictional force F, the normal reaction force N, the tension in the rope T and the force of attraction of the centre of the Earth on each block, Fg. 3.1 3.2 State Newton's second law of motion in words. 3.3 Apply Newton's second law of motion to calculate the acceleration of the system.

Question 3

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QUESTION 3 Sibusiso ties two blocks together by a short length of very light string that does not stretch. The two blocks have masses of 4 kg and 6 kg. as shown in the following diagram. A force of 100 N pulls the 6 kg block to the right There is a constant frictional force of 10 N that acts between the surface and each of the two blocks. W 100 N 60° 4 kg 6 kg 3.1 Draw a labelled force diagram for each block. Indicate the frictional force F, the normal reaction force N, the tension in the rope T and the force of attraction of the centre of the Earth on each block, F,. 3.2 State Newton's second law of motion in words. 3.3 Apply Newton's second law of motion to calculate the acceleration of the system. Determine the coefficient of kinetic friction, Hk, between the surface and the 6 kg block. 3.4 UESTION 4 ne following circuit diagram consists Of a number of resistors that are connected to a 6 V attery. 6 V