Frictional force = (coefficient of friction) x (mg).
a). If the coefficient of static friction is 0.2 and m= 5 kg and g= 9.8 m/s^2, then frictional force= (0.2) x (5 kg x 9.8 m/s^2) = 9.8 N. This is the maximum frictional force that prevents the block from moving.
b). To answer this question, you must first find the Net force. You find this by simply subtracting the force vectors from each other. Because both the frictional force and applied force are horizontal, you can directly subtract. If 9N is applied to move the block but there is a maximum frictional force of 9.8 N, then the block does not move because the applied force cannot overcome the frictional force. 9<9.8 (9 N - 9.8N= -0.8 N). The negative sign indicates that the net force would be in the leftward direction ( the direction the friction force is pointing).
C). The size of the frictional force always matches the size of the applied force if the applied force is less than the frictional force. This is because frictional force cannot move something, it can only prevent movement. However, if the applied force is greater than the frictional force, then the frictional force would be at its largest magnitude. Since the first situation is the case here, the force of friction = applied force = 9 N.
