Data about the sound levels from a new speaker are collected at a manufacturing facility and are used to calculate the model ŷ = 62.4(0.915)x, where x represents the distance from the speaker in meters and ŷ represents the predicted sound level in decibels. Interpret the percent rate of change of the model in the context of the problem. For every increase in one meter from the speaker, the sound level is predicted to decrease by about 91.5%. For every increase in one meter from the speaker, the sound level is predicted to decrease by about 8.5%. For every increase in one meter from the speaker, the sound level is predicted to increase by about 91.5%. For every increase in one meter from the speaker, the sound level is predicted to increase by about 8.5%.
Data about the sound levels from a new speaker are collected at a manufacturing facility and are used to calculate the model ŷ = 62.4(0.915)x, where x represents the distance from the speaker in meters and ŷ represents the predicted sound level in decibels. Interpret the percent rate of change of the model in the context of the problem.
For every increase in one meter from the speaker, the sound level is predicted to decrease by about 91.5%.
For every increase in one meter from the speaker, the sound level is predicted to decrease by about 8.5%.
For every increase in one meter from the speaker, the sound level is predicted to increase by about 91.5%.
For every increase in one meter from the speaker, the sound level is predicted to increase by about 8.5%.
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