5.1 Draw a labelled free-body diagram, showing ALL the forces acting on the boy-skateboard unit while moving down the ramp from P to Q - NSC Physical Sciences - Question 5 - 2017 - Paper 1

The work-energy theorem states that the net work done on an object is equal to the change in the object's kinetic energy. In mathematical terms, it can be expressed as: W_{ ext{net}} = rac{1}{2} m v_f^2 - rac{1}{2} m v_i^2

To find the initial speed $v_i$, we apply the work-energy theorem:

1. The net work done ($W_{ ext{net}}$) is equal to the change in kinetic energy: $W_{ ext{net}} = F_{ ext{f}} imes d imes ext{cos}( heta)$ where $heta = 180^{ ext{o}}$ since friction acts opposite the motion. $W_{ ext{net}} = (50 ext{ N})(25 ext{ m})(-1) = -1250 ext{ J}$

2. Setting the work done equal to the change in kinetic energy: -1250 = rac{1}{2}(60)(15^2) - rac{1}{2}(60)v_i^2 $-1250 = 6750 - 30v_i^2$ $30v_i^2 = 6750 + 1250$ $v_i^2 = 250$ $v_i = ext{√}(250) ext{ m/s} ext{ or } 15.81 ext{ m/s}$

Average power ($P_{ ext{avg}}$) is calculated using the formula:

P_{ ext{avg}} = rac{W}{ ext{time}}

1. The work done against friction over the distance (25 m) is: $W = 50 ext{ N} imes 25 ext{ m} = 1250 ext{ J}$

2. The time taken ($ext{time}$) to travel from point P to Q: ext{time} = rac{d}{ ext{speed}} = rac{25 ext{ m}}{15 ext{ m/s}} = 1.67 ext{ s}

3. Now calculating average power: P_{ ext{avg}} = rac{1250}{1.67} ext{ W} ext{ or } 748.5 ext{ W}