Using Planck’s Law, prove that ???? = h?/4.965?? , where ???? is the wavelength at which...

15. Newton’s Law of Cooling. Newton’s law of cooling states that the rate of change in...

15. Newton’s Law of Cooling. Newton’s law of cooling states that the rate of change in the temperature T(t) of a body is proportional to the difference between the temperature of the medium M(t) and the temperature of the body. That is, dT/dt = K[M(t) - T(t)] , where K is a constant. Let K = 0.04 (min)-1 and the temperature of the medium be constant, M(t) = 293 kelvins. If the body is initially at 360 kelvins, use Euler’s...

The wavelength of peak emission from any star is related to the temperature of its photosphere...

The wavelength of peak emission from any star is related to the temperature of its photosphere (i.e., the emitting surface) by Wien’s Law, given by λ = 2,900/T, where λ is the wavelength in micrometers (1 µm = 10-6 m), and T is the temperature of the star in Kelvin (see textbook’s figure 3.27 for help). Answer the following questions using the above equation. 2.1. The most massive star ever observed is a Wolf-Rayet type-star, named R136a1. It is so...

The de Broglie wavelength of a quantum-mechanical particle with momentum p is given by Y=h/p, where...

The de Broglie wavelength of a quantum-mechanical particle with momentum p is given by Y=h/p, where h is plancks constant. Use this to show that Fermi energy for a free Fermi gas is, with a numerical factor, equal to the kinetic energy of a particle whose de Broglie wavelength is equal to the average interparticle spacing in the gas.

Problem 8. Suppose that H has index 2 in G. Prove that H is normal in...

Problem 8. Suppose that H has index 2 in G. Prove that H is normal in G. (Hint: Usually to prove that a subgroup is normal, the conjugation criterion (Theorem 17.4) is easier to use than the definition, but this problem is a rare exception. Since H has index 2 in G, there are only two left cosets, one of which is H itself – use this to describe the other coset. Then do the same for right 1 cosets....

Please show all steps, thank you. Using the Taylor formula for f(x+h) and f(x-h) with f...

Please show all steps, thank you. Using the Taylor formula for f(x+h) and f(x-h) with f ''' in the error term, find the error of the approximate formula f '' (x) = (f(x+h)+f(x-h)-2f(x))/(h^2) in terms of f ''' (eta), for some point eta between x-h and x+h. Then give an upper bound for the absolute error assuming that |f ''' (t)| =< M for t between x-h and x+h.

Newton's law of cooling is: du/dt = -k (u-T) where u(t) is temperature of an object,...

Newton's law of cooling is: du/dt = -k (u-T) where u(t) is temperature of an object, t is in hours, T is a constant ambient temperature, and k is a positive constant. Suppose a building loses heat in accordance with Newton's law of cooling. Suppose that the rate constant k has the value 0.15 hr^-1 . Assume that the interior temperature is Ti = 77F, when the heating system fails. If the external temperature is T = 5F, how long...

This question is about Newton’s law of cooling, which states that the temperature of a hot...

This question is about Newton’s law of cooling, which states that the temperature of a hot object decreases proportionally to the difference between its temperature and the temperature of the surroundings. This can be written as dT dt = −k(T − Ts), where T is the temperature, t is time, k is a constant and Ts is the temperature of the surroundings. For this question we will assume that the surroundings are at a constant 20◦ and A that the...

The Sun has a temperature of 5780 K. What is the wavelength and frequency where its...

The Sun has a temperature of 5780 K. What is the wavelength and frequency where its spectrum peaks? Which color does this correspond to? How does the energy flux of the Sun compare that of a red dwarf whose temperature is a mere 2,000 K, and is of the same size?

The height of a helicopter above the ground is given by h = 2.95t3, where h...

The height of a helicopter above the ground is given by h = 2.95t3, where h is in meters and t is in seconds. At t = 2.05 s, the helicopter releases a small mailbag. How long after its release does the mailbag reach the ground?

Consider the Ideal Gas Law, which states that PV = nRT, where P is the pressure,...

Consider the Ideal Gas Law, which states that PV = nRT, where P is the pressure, V is the volume, T is the temperature, and n is the number of moles of a gas sample, and R is a constant. (a) Assume a sample of 1 mole of a gas is in a expandable container where temperature and pressure are allowed to vary. Solve this equation for V = f(P,T). (b) Determine ∂V/dP and interpret the result. In particular, describe...