Displaying results which match all of the below:
• Balanced Forces 1

The force of the wind acting on the sail (in this case anticlockwise) is balanced by the force of the crew leaning out (clockwise force)

• Balanced forces 2

In this case the clockwise force is the crew pushing down on the daggerboard and the anticlockwise force is the resistance of the water on the sail

• Car brakes
• Einstein gravity time warp
• F=MA

In this experiment, we tried to establish the F=MA equation. We did this by creating a system which involved a Car, being pulled by a pulley which was attached to some masses (Weight, which in this experiment acts as force, Weight is mass being accelerated by gravity.) In the first experiment we moved the Weights from the Weight, to the Car (Turning it into Mass). This is graph One, which is the upper of the two. And the results are to the left of it. The second experiment was where we only added to the Mass of the car. Activities: Plot the gradient, as the Acceleration and Mass have been listed, put these values into F=MA and see if the Gradient is equal to F. If so why so? If not, why not?

• F=ma (lightgates)

Excel spreadsheet with data from the dataloggers of an F=ma experiment

• Forces & Motion Powerpoint
• Forces lifting an object
• Forces Powerpoint
• Lightgates acceleration

A setup for lightgates to measure acceleration on an air track

• Lightgates height vs velocity

Results for an experiment where the height of a ramp, down which a car is rolled, is varied. The velocity of the car is calculated using a lightgate.
The mass of the car was 53.7g

• Lightgates velocity

A setup for lightgates to measure velocity on an air track

• Maglev

magnetic train

• Measuring G
• Polarisation stress
• Poster Work Done

A3 poster showing Work Done

• Spanner & nut

polarised

• Stopping distance chart

hart of stopping distance for different speeds (in mph and kmph)

• Tennis Ball

momentum impulse