Problem 14.33 Treatment for a stroke. One suggested treatment for a person who h
ID: 1509754 • Letter: P
Question
Problem 14.33 Treatment for a stroke. One suggested treatment for a person who has suffered a stroke is to immerse the patient in an ice-water bath at 0 C to lower the body temperature, which prevents damage to the brain. In one set of tests, patients were cooled until their internal temperature reached 32.5 C. Part A To treat a 67.2 kg patient, what is the minimum amount of ice (at 0 C) that you need in the bath so that its temperature remains at 0 C? The specific heat capacity of the human body is 3480 J/(kgC), and recall that normal body temperature is 37.0 C. mice = Problem 14.33 Treatment for a stroke. One suggested treatment for a person who has suffered a stroke is to immerse the patient in an ice-water bath at 0 C to lower the body temperature, which prevents damage to the brain. In one set of tests, patients were cooled until their internal temperature reached 32.5 C. Part A To treat a 67.2 kg patient, what is the minimum amount of ice (at 0 C) that you need in the bath so that its temperature remains at 0 C? The specific heat capacity of the human body is 3480 J/(kgC), and recall that normal body temperature is 37.0 C. mice = Problem 14.33 Treatment for a stroke. Problem 14.33 Treatment for a stroke. One suggested treatment for a person who has suffered a stroke is to immerse the patient in an ice-water bath at 0 C to lower the body temperature, which prevents damage to the brain. In one set of tests, patients were cooled until their internal temperature reached 32.5 C. One suggested treatment for a person who has suffered a stroke is to immerse the patient in an ice-water bath at 0 C to lower the body temperature, which prevents damage to the brain. In one set of tests, patients were cooled until their internal temperature reached 32.5 C. One suggested treatment for a person who has suffered a stroke is to immerse the patient in an ice-water bath at 0 C to lower the body temperature, which prevents damage to the brain. In one set of tests, patients were cooled until their internal temperature reached 32.5 C. Part A To treat a 67.2 kg patient, what is the minimum amount of ice (at 0 C) that you need in the bath so that its temperature remains at 0 C? The specific heat capacity of the human body is 3480 J/(kgC), and recall that normal body temperature is 37.0 C. mice = Part A To treat a 67.2 kg patient, what is the minimum amount of ice (at 0 C) that you need in the bath so that its temperature remains at 0 C? The specific heat capacity of the human body is 3480 J/(kgC), and recall that normal body temperature is 37.0 C. mice = Part A To treat a 67.2 kg patient, what is the minimum amount of ice (at 0 C) that you need in the bath so that its temperature remains at 0 C? The specific heat capacity of the human body is 3480 J/(kgC), and recall that normal body temperature is 37.0 C. mice = mice = mice = mice =Explanation / Answer
Use black principle
Q give = Q receive
Q (body) = Q (ice)
m * c * deltaT = m * L
67.2 * 3480 * (37 - 32.5) = m * 334000
m= 3.1508 kg