The average body temperature of a healthy person is 37.0°C. Boltzmann's constant is 1.38 × 10−23 J/K.
If a fever increases the temperature to 37.8°C, by what percentage does the average kinetic energy of the molecules increase?
___%
The average body temperature of a healthy person is 37.0°C. Boltzmann's constant is 1.38 × 10−23...
The average body temperature of a healthy person is 37.0°C. Boltzmann's constant is 1.38 × 10−23 J/K. If a fever increases the temperature to 38.0°C, by what percentage does the average kinetic energy of the molecules increase? Answer must be in percentage.
6. The average body temperature of a healthy person is 37.0°C. Boltzmann's constant is 1.38 × 10−23 J/K. If a fever increases the temperature to 38.6°C, by what percentage does the average kinetic energy of the molecules increase? 7. In intergalactic space, there is an average of about one hydrogen atom per cubic centimeter and the temperature is 6.10 K. What is the absolute pressure? Boltzmann constant is 1.38 × 10−23 J/K. (answer is in Pa)
The body is designed to maintain a constant temperature of about 37 °C under normal healthy re is lower (say 25 °C), there must be a continuous heat 1 from the body. This heat loss can be modeled as oss A(T-T) T is the body temperature, Ta is the room temperature, A is the body surface area (assume 1.73 m2). The heat transfer coefficient h is 4.09 W/(m2 "C). Note that Qross <0. Because of the continuous heat loss, the...
A gas bottle contains 5.58×1023 Nitrogen molecules at a temperature of 380 K. What is the thermal energy of the gas? (You might need to know Boltzmann's constant: kB = 1.38×10-23 J/K.) How much energy is stored in ONE degree of freedom for the whole system? What is the average energy of a single molecule?
7. For CO2 near room temperature: Cy - molar heat capacity at constant volume = 28.5 J/(mole K) Other useful information gas constant R 8.314 J/(mole K) Boltzmann's constant k - 1.38 x 10-23 J/K a) The internal energy of a sample of N molecules of CO2 near room temperature can be written U = a + bNKT where a and b are constants. What is the value of b? (15 points) b) The Equipartition Theorem allots energy VkT to...
A gas bottle contains 7.54×1023 Oxygen molecules at a temperature of 360.0 K. What is the thermal energy of the gas? (You might need to know Boltzmann's constant: kB = 1.38×10-23 J/K.) How much energy is stored in ONE degree of freedom for the whole system? What is the average energy of a single molecule? On average how much energy is stored by ONE degree of freedom for ONE single molecule?
During hibernation, an animal’s metabolism slows down, and its body temperature lowers. For example, a California ground squirrel’s body temperature lowers from 40.0°C to 14.6°C during hibernation. If we assume that the air in the squirrel’s lungs is 75.0% N2 and 25.0% O2, by how much will the rms speed of the air molecules in the lungs have decreased during hibernation? Boltzmann's constant is 1.38 × 10−23 J/K. Molar mass of Nitrogen is 14.00674 u and Oxygen is 15.9994 u....
2. During hibernation, an animal’s metabolism slows down, and its body temperature lowers. For example, a California ground squirrel’s body temperature lowers from 40.0°C to 21.2°C during hibernation. If we assume that the air in the squirrel’s lungs is 75.0% N2 and 25.0% O2, by how much will the rms speed of the air molecules in the lungs have decreased during hibernation? Boltzmann's constant is 1.38 × 10−23 J/K. Molar mass of Nitrogen is 14.00674 u and Oxygen is 15.9994...
Before going in for an annual physical, a 70.0-kg person whose body temperature is 37.0∘C consumes an entire 0.355-liter can of a soft drink (which is mostly water) at 12.0∘C.What will be the person's body temperature Tfinal after equilibrium is attained? Ignore any heating by the person's metabolism. The specific heat capacity of a human body is 3480 J/kg⋅K. confused about initial and final temps.explain pls
SHOW YOUR WORK: Find the Average Kinetic Energy of Helium atoms if: the temperature is 6 x 105 K and the Boltzmann constant is k = 1.38×10−23 J/molecule K