Evaluating Experiments
- The accuracy of an experiment can be increased by repeating measurements and using mean values
- Methods seeking to reduce systematic errors result in increased accuracy
- Sometimes, additional apparatus can be used to improve the experiment, by reducing errors
- Some changes to the method could be:
- Timing over multiple oscillations
- Using a fiducial marker
Example: Oscillations
- The time period of oscillations is commonly measured using a stopwatch
- Reaction time is a common error when measuring time
- Uncertainty in a measurement of periodic time can therefore be reduced by:
- Measuring many oscillations to calculate the average time for one oscillation
- Increasing the total time measured for multiple swings
- It would be ideal to measure the time taken for the pendulum to complete 10 (or more) oscillations and divide this time by 10 to determine the time period of one oscillation
One complete oscillation of a pendulum
Additional Apparatus
- A fiducial marker is a useful tool to act as a clear reference point, such as when measuring the time period of a pendulum using a stopwatch
- This improves the accuracy of a measurement of periodic time by:
- Making timings by sighting the pendulum as it passes the fiducial marker
- Sighting the pendulum as it passes the fiducial marker at its highest speed. The pendulum swings fastest at its lowest point and slowest at the top of each swing
A fiducial marker is used to mark the centre of the oscillation of the pendulum
Worked example
A student wants to measure the time period of a vertical mass on a spring system. The time is measured on a stopwatch between when the mass is pulled down till after one complete oscillation.
Discuss how the student could reduce the error in their measured time period.
- The student should make sure the amplitude of the oscillations is large so the time period is longer
- This would reduce the effect of the human reaction time which causes a slight error when using a stopwatch
- The student should measure the time period over 10 oscillations and divide the time by 10 for the time period of one oscillation
- However, due to damping effects, the amplitude of all the oscillations, and therefore their time periods, will not be the same
- This effect is reduced if there is a large amplitude for the first oscillations
- The spring must not exceed its elastic limit at any point of the experiment
- If the spring is stretched too much, it will not go back to its original un-stretched position therefore affecting the oscillations
- The student must make sure the oscillations are all completing vertical
- This effect will the time period if the mass is pulled down at a slight angle, or pushed one way or another during the experiment