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Persons taking a 30-hour review course to prepare for a standardized exam average a score of 620 on that exam. Persons taking a 70-hour review course average a score of 749. Find a linear equation which fits this data, and use this equation to predict an average score for persons taking a 57-hour review course. Round your answer to the tenths place.

User Cobaco
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1 Answer

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Given:

30-hour review course average a score of 620 on that exam.

70-hour review course average a score of 749.

To find:

The linear equation which fits this data, and use this equation to predict an average score for persons taking a 57-hour review course.

Solution:

Let x be the number of hours of review course and y be the average score on that exam.

30-hour review course average a score of 620 on that exam. So, the linear function passes through the point (30,620).

70-hour review course average a score of 749. So, the linear function passes through the point (70,749).

The linear function passes through the points (30,620) and (70,749). So, the linear equation is:


y-y_1=(y_2-y_1)/(x_2-x_1)(x-x_1)


y-620=(749-620)/(70-30)(x-30)


y-620=(129)/(40)(x-30)


y-620=(129)/(40)(x)-(129)/(40)(30)


y-620=(129)/(40)(x)-(387)/(4)

Adding 620 on both sides, we get


y=(129)/(40)x-(387)/(4)+620


y=(129)/(40)x+(2480-387)/(4)


y=(129)/(40)x+(2093)/(4)

We need to find the y-value for
x=57.


y=(129)/(40)(57)+(2093)/(4)


y=183.825+523.25


y=707.075


y\approx 707.1

Therefore, the required linear equation for the given situation is
y=(129)/(40)x+(2093)/(4) and the average score for persons taking a 57-hour review course is 707.1.

User KumarA
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