SSCE HSC Mathematics Extension 1 Rates of change with respect to time: Which equation best represents t

Which equation best represents this graph? A - HSC - SSCE Mathematics Extension 1 - Question 7 - 2018 - Paper 1

Question 7

Which equation best represents this graph? A. $P(t) = 1500 + 1500e^{-kt}$ B. $P(t) = 3000 - 1500e^{-kt}$ C. $P(t) = 3000 + 1500e^{-kt}$ D. $P(t) = 4500 - 1500e^{-kt... show full transcript

Worked Solution & Example Answer:Which equation best represents this graph? A - HSC - SSCE Mathematics Extension 1 - Question 7 - 2018 - Paper 1

Step 1

Evaluate the options with respect to the graph

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Answer

To determine which equation best represents the graph, we analyze its asymptotic behavior, initial conditions, and maximum value. The graph appears to approach a horizontal asymptote as time increases.

Identify Initial Condition:
- At time $t=0$ , the function should accurately represent the value shown on the graph.
Asymptotic Behavior:
- The highest value the graph approaches (as $t$ approaches infinity) gives an indication of the parameters in the equation.

After examining the options, we find:

Option C: $P(t) = 3000 + 1500e^{-kt}$ predicts initial growth from a value of 3000, aligning with the graph approach. Thus, this set-up looks plausible.

Step 2

Conclusion

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Answer

Based on the evaluations and comparisons to the graph, the best-fitting equation is C: $P(t) = 3000 + 1500e^{-kt}$ .

Which equation best represents this graph? A - HSC - SSCE Mathematics Extension 1 - Question 7 - 2018 - Paper 1

Worked Solution & Example Answer:Which equation best represents this graph? A - HSC - SSCE Mathematics Extension 1 - Question 7 - 2018 - Paper 1

Evaluate the options with respect to the graph

Conclusion

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