a) A pot of boiling soup with an internal temperature of 100°F was taken off the stove to coolin a 66°F room. After 15 minutes, the internal temperature of the soup was 93°F. use Newton's law of Cooling to write a formula T(t) that models this situation, where T is the temperature of the soup in degrees Fahrenheit and t is time in minutes T(t)= b) a pot of boiling soup with an internal tempature of 100°F was taken off the stove to cool in a 70°F room. After 15 minutes, the internal temperature of the soup was 91°F. to the nearest minutes, how long will it take the soup to cool to 84°F? __________min
a) A pot of boiling soup with an internal temperature of 100°F was taken off the stove to coolin a 66°F room. After 15 minutes, the internal temperature of the soup was 93°F. use Newton's law of Cooling to write a formula T(t) that models this situation, where T is the temperature of the soup in degrees Fahrenheit and t is time in minutes T(t)= b) a pot of boiling soup with an internal tempature of 100°F was taken off the stove to cool in a 70°F room. After 15 minutes, the internal temperature of the soup was 91°F. to the nearest minutes, how long will it take the soup to cool to 84°F? __________min
College Physics
10th Edition
ISBN:9781285737027
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Introduction
Section: Chapter Questions
Problem 54AP
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a) A pot of boiling soup with an internal temperature of 100°F was taken off the stove to coolin a 66°F room. After 15 minutes, the internal temperature of the soup was 93°F. use Newton's law of Cooling to write a formula T(t) that models this situation, where T is the temperature of the soup in degrees Fahrenheit and t is time in minutes
T(t)=
b) a pot of boiling soup with an internal tempature of 100°F was taken off the stove to cool in a 70°F room. After 15 minutes, the internal temperature of the soup was 91°F. to the nearest minutes, how long will it take the soup to cool to 84°F?
__________min
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