A student investigated the acceleration of a trolley - AQA - GCSE Physics - Question 8 - 2020 - Paper 1
Question 8
A student investigated the acceleration of a trolley.
Figure 13 shows how the student set up the apparatus.
Before attaching the mass holder the student placed the... show full transcript
Worked Solution & Example Answer:A student investigated the acceleration of a trolley - AQA - GCSE Physics - Question 8 - 2020 - Paper 1
Step 1
What change to the apparatus in Figure 13 could be made to prevent the trolley from starting to roll down the runway?
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Answer
Move the wooden block to the left. This adjustment would minimize the slope of the runway, thereby preventing the trolley from rolling down due to gravity.
Step 2
Suggest what the student could do to prevent the string from rubbing.
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Answer
The student could use a pulley on the edge of the bench. This would redirect the string and prevent it from rubbing against the sharp edge, allowing it to move freely.
Step 3
Complete Figure 14.
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Answer
A suitable scale for the x-axis would be to plot resultant force ranging from 0 to 0.30 N in increments of 0.05 N. Plot the results from the table, with acceleration on the y-axis. Ensure that the points are correctly plotted based on the table values, then draw a line of best fit to indicate the trend of the data.
Step 4
Describe the relationship between the resultant force on the trolley and the acceleration of the trolley.
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The relationship is directly proportional, meaning that as the resultant force increases, the acceleration of the trolley also increases proportionally.
Step 5
Describe how the investigation could be improved to reduce the effect of random errors.
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The investigation could be improved by repeating the measurements to calculate an average, thereby minimizing the impact of any anomalies observed in single trials.
Step 6
Write down the equation that links acceleration (a), mass (m) and resultant force (F).
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The equation that links acceleration, mass, and resultant force is given as:
F=mimesa
Step 7
Calculate the acceleration of the trolley.
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Using the equation F=m×a, we can rearrange it to find acceleration:
a=mF=0.60 kg0.375 N=0.625 m/s2
Thus, the acceleration of the trolley, rounded to 2 significant figures, is:
