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Newton's Law of Cooling Says That the Rate of Change

Question 13

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Newton's Law of Cooling says that the rate of change (with respect to time t in minutes) of the temperature T of an object is proportional to the difference between the temperature of the object and the temperature A of the object's surroundings. If the object is placed in a room where the temperature is fixed at 71.4 degrees Fahrenheit, write a differential equation describing this law.


A) Newton's Law of Cooling says that the rate of change (with respect to time t in minutes) of the temperature T of an object is proportional to the difference between the temperature of the object and the temperature A of the object's surroundings. If the object is placed in a room where the temperature is fixed at 71.4 degrees Fahrenheit, write a differential equation describing this law. A) degrees Fahrenheit per minute B) degrees Fahrenheit per minute C) degrees Fahrenheit per minute D) degrees Fahrenheit per minute E) degrees Fahrenheit per minute degrees Fahrenheit per minute
B) Newton's Law of Cooling says that the rate of change (with respect to time t in minutes) of the temperature T of an object is proportional to the difference between the temperature of the object and the temperature A of the object's surroundings. If the object is placed in a room where the temperature is fixed at 71.4 degrees Fahrenheit, write a differential equation describing this law. A) degrees Fahrenheit per minute B) degrees Fahrenheit per minute C) degrees Fahrenheit per minute D) degrees Fahrenheit per minute E) degrees Fahrenheit per minute degrees Fahrenheit per minute
C) Newton's Law of Cooling says that the rate of change (with respect to time t in minutes) of the temperature T of an object is proportional to the difference between the temperature of the object and the temperature A of the object's surroundings. If the object is placed in a room where the temperature is fixed at 71.4 degrees Fahrenheit, write a differential equation describing this law. A) degrees Fahrenheit per minute B) degrees Fahrenheit per minute C) degrees Fahrenheit per minute D) degrees Fahrenheit per minute E) degrees Fahrenheit per minute degrees Fahrenheit per minute
D) Newton's Law of Cooling says that the rate of change (with respect to time t in minutes) of the temperature T of an object is proportional to the difference between the temperature of the object and the temperature A of the object's surroundings. If the object is placed in a room where the temperature is fixed at 71.4 degrees Fahrenheit, write a differential equation describing this law. A) degrees Fahrenheit per minute B) degrees Fahrenheit per minute C) degrees Fahrenheit per minute D) degrees Fahrenheit per minute E) degrees Fahrenheit per minute degrees Fahrenheit per minute
E) Newton's Law of Cooling says that the rate of change (with respect to time t in minutes) of the temperature T of an object is proportional to the difference between the temperature of the object and the temperature A of the object's surroundings. If the object is placed in a room where the temperature is fixed at 71.4 degrees Fahrenheit, write a differential equation describing this law. A) degrees Fahrenheit per minute B) degrees Fahrenheit per minute C) degrees Fahrenheit per minute D) degrees Fahrenheit per minute E) degrees Fahrenheit per minute degrees Fahrenheit per minute

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