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1.3.a. Biomechanical principles, levers and technology Categorise
Target Level
C
Running Total
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Attempt
1 of 2
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Newton's First Law
Newton's Second Law
Newton's Third Law
During the take-off phase of a high jump, the force exerted on the ground in order to leap into the air would be met by an equal force acting on the foot
Law of Inertia
Law of Reaction
When a sprinter pushes against the starting blocks, the blocks exert an equal force on the sprinter
A golf ball will remain at a constant velocity in flight unless acted on by gravity and air resistance
In football, the ball remains still on the penalty spot until kicked by the penalty taker
An ice hockey puck would continue to move across the ice unless friction caused it to slow down or an interception brought it to a halt
The more power a tennis player puts into their shot, the greater the force, thus acceleration, would be on the ball
In skiing, the performer would continue to glide at a constant velocity unless friction against the snow, air resistance, or turning their feet caused them to decelerate
A fielder overcomes the force of a ball by exerting an opposite force against it during the catch
An accurate pass in american football will reach its opponent quicker if there is a greater force applied to the ball
The harder a tackle in rugby, the greater force applied to the opponent, causing them to decelerate at a greater rate
Law of Acceleration
During a rugby conversion in windy conditions, the ball remains still on the kicking tee until it is blown off by a gust of wind
The more force a weightlifter puts into a lift, the faster the weight will accelerate