Information about Newton's Law of Cooling Newton's law of Cooling is used to model the temperature change of an object of some temperature placed in an environment of a dierent temperature. The law states that (IT =k TR where T is the temperature of the object at time tr R is the temperature of the surrmmding environment {constant} and t is a constant of proportionality. What this law says is that the rate of change of temperature is proportional to the difference between the temperature of the object and that of the surrounding environment. In order to get the previous equation to something that we can use, we must solve the differential equation. The steps are given below. Separate the variables. Get all the T's on one side and all the t's on the other side. The constants can be on either side. dT =lcdt (TR) Anti-differentiate both sides to get: 01]" = k df (T - R) >> ln(TR)=kf+C leave in the previous form or solve for T. >> T 2 sh\": + R We now have a useful equation. When you are working with Newton's law of Cooling, remember that t is the variable. The other letters, K, it, C, are all constants. In order to nd the temperature of the object at a given time, all of the constants must first have numerical values. When an object is removed from a furnace and placed in an environment with a constant temperature of 75F, its core temperature is 1200F. One hour after it is removed, the core temperature is 1040 F. Find the core temperature 4 hours after the object is removed from the furnace. Use Newton's Law of Cooling