Difference between revisions of "GCSE Physics Required Practical: Investigating Hooke's Law"
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#Calculate the [[extension]] of the [[Coil Spring|spring]] by [[subtract]]ing the original length from the new length of the [[Coil Spring|spring]]. | #Calculate the [[extension]] of the [[Coil Spring|spring]] by [[subtract]]ing the original length from the new length of the [[Coil Spring|spring]]. | ||
#Repeat steps 2-4 up to around 6N. | #Repeat steps 2-4 up to around 6N. | ||
− | #Plot a [[graph]] with the [[force]] of [[weight]] on the [[y-axis]] and the [[extension]] on the [[x-axis]]. The [[gradient]] of | + | #Plot a [[Scatter Graph|scatter graph]] with the [[force]] of [[weight]] on the [[y-axis]] and the [[extension]] on the [[x-axis]]. The [[gradient]] of [[Line of Best Fit|line of best fit]] will be the [[Spring Constant|spring constant]] of the [[Coil Spring|coil spring]]. |
====Improving [[Accuracy]]==== | ====Improving [[Accuracy]]==== |
Revision as of 14:13, 20 March 2019
Contents
Key Stage 4
Meaning
Investigate the relationship between the extension of a spring and the force applied to that spring.
Experiment
Variables
- Independent Variable: The force applied to the spring.
- Dependent Variable: The extension of the spring.
- Control Variables: The spring being used.
Method
A diagram of the apparatus used to investigate the effect of a force on the extension of a spring. |
- Set up the equipment as shown in the diagram.
- Measure the original length of the spring using a ruler.
- Attach a known weight (approximately 1N) to the spring.
- Measure the new length of the spring.
- Calculate the extension of the spring by subtracting the original length from the new length of the spring.
- Repeat steps 2-4 up to around 6N.
- Plot a scatter graph with the force of weight on the y-axis and the extension on the x-axis. The gradient of line of best fit will be the spring constant of the coil spring.
Improving Accuracy
- Calculate the weight added by measuring its mass each time and using the equation \(W=mg\) with \(g=9.8\). This will give a more accurate knowledge of the weight rather than relying on the number printed on the weights.
- Add a fiduciary marker to the bottom of the coil spring to prevent any error caused by not reading the ruler from eye level.
- Ensure the spring is not moving when taking measurements of it's length.
A fiduciary marker can be added to improve accuracy and precision of the length measurements. |
Improving Precision
- Calculate the weight correct to two significant figures by measuring its mass to two significant figures each time and using the equation \(W=mg\) with \(g=9.8\). This will give a more precise knowledge of the weight rather than relying on the number printed on the weights which may be precise to only one significant figure.
- Add a fiduciary marker with a fine point to the bottom of the coil spring to give a precise reading of the length of the coil spring.