Calculate the energy fluence and photon fluence per 2.58 * 10-4 C/Kg (1R in non-SI unis)...

1) Calculate the energy of the green light emitted, per photon, by a mercury lamp with...

1) Calculate the energy of the green light emitted, per photon, by a mercury lamp with a frequency of 5.49 × 1014 H ........................................................ 2) Calculate your own wavelenngth using average walking velocity of 1 m/s. Hint: mass equals your body weight.

Calculate the total binding energy in kJ per mole nuclide and in kJ/mol nucleons for the...

Calculate the total binding energy in kJ per mole nuclide and in kJ/mol nucleons for the following nuclides, using the data given below. Nuclide Total binding energy kJ/mol nuclide kJ/mol nucleons (a) 8/4Be (b) 26/12 Mg (c) 235/92 U Particle or atom Mass (u) proton 1.00728 neutron 1.00866 electron 0.00055 8/4 Be 8.00531 26/12 Mg 25.98259 235/92 U 235.04392 1 u = 1.66054×10-27 kg

Consider an incident beam of 10^4, 2.4 MeV photons on a block of carbon of thickness...

Consider an incident beam of 10^4, 2.4 MeV photons on a block of carbon of thickness 3 × 10^23electrons/cm^2(or 5 × 10^22atoms/cm^2). A. The primary interaction between the photon beam and the block of carbon is Compton scattering. What is one way you could determine this? State a useful coefficient for this interaction. B. What is the number of Compton interactions? C. How much energy is diverted from the incident beam? D. Calculate the energy transferred to the kinetic energy...

The diffusion coefficient for O^-2 in Cr2O3 is 4 × 10-15 cm^2 /s at 1150°C and...

The diffusion coefficient for O^-2 in Cr2O3 is 4 × 10-15 cm^2 /s at 1150°C and 6 ×10-11 cm^2 /s at 1715°C. Calculate (a) the activation energy and (b) the constant Do.

Water at 15°C enters a tube of 2 cm of diameter with flow rate 3953 kg/h....

Water at 15°C enters a tube of 2 cm of diameter with flow rate 3953 kg/h. Assume the ratio L/D>10, and the wall temperature is constant at 80-C. The outlet temperature is 50°C The properties of water at the film temperature are density rho = p = 985 kg/m3, specific heat Cp = 4180 J/kgk, conductivity k = 0.651 W/mK, dynamic viscosity mu= u = 4.71 × 10- kg/ms, At the wall temperature of 80°C we have dynamic viscosity muw=...

2.) Determine the energy equivalent to a mass defect equal to 2.67 x 10-26 kg. (Mass...

2.) Determine the energy equivalent to a mass defect equal to 2.67 x 10-26 kg. (Mass defect means the missing mass after a nuclear reaction) a.) 1.74 x 10-9 Joule b.) 6.39 x 10-9 Joule c.) 8.28 x 10-9 Joule d.) 2.40 x 10-9 Joule Answer __________ 3.) Determine the de Broglie wavelength for an ball with a mass equal 0.50 kg moving with a speed of 25 meter/second. a.) 1.9 x 10-38 m b.) 8.4 x 10-29 m c.)...

1. A 74.20 kg piece of copper metal is heated from 21.5°C to 335.1°C. Calculate the...

1. A 74.20 kg piece of copper metal is heated from 21.5°C to 335.1°C. Calculate the heat absorbed (in kJ) by the metal. 2. A sheet of gold weighing 10.9 g and at a temperature of 17.3°C is placed flat on a sheet of iron weighing 23.9 g and at a temperature of 52.2°C. What is the final temperature of the combined metals? Assume that no heat is lost to the surroundings. (Hint: The heat gained by the gold must...

A nitrogen molecule is composed of 2 nitrogen atoms having mass 2.34 x 10^-26 kg separated...

A nitrogen molecule is composed of 2 nitrogen atoms having mass 2.34 x 10^-26 kg separated by 1.30 x 10^-10 meters. At 24 degrees C, the average rotational kinetic energy is 3.05 x10^-21 Joules. Calculate the moment of inertia of a nitrogen molecule about is CoM and the angular velocity in radians per second.

this is a thermodynamics class 4. We want to develop an intuition for what different amounts...

this is a thermodynamics class 4. We want to develop an intuition for what different amounts of energy look like in various forms. Calculate the energy in MegaJoules (MJ) present in the following systems. As a comment, many people will be surprised by some of the values, for example, a comparison of part e to parts a through c. a) 1 liter (approximately 1 quart) of octane, a primary component of gasoline. In this case, the chemical energy is released...

A transverse wave propagates in a very long wire of mass per unit length 4*10^-3 kg/m...

A transverse wave propagates in a very long wire of mass per unit length 4*10^-3 kg/m and under tension of 360 N. An observer next to the wire notices 10 wave peaks (or crests) passing her in a time of 2 seconds moving to the left. a) If at t=0 and x=0 the displacement assumes its maximum value of 1mm, what is the explicit equation for the wave? b) Calculate the maximum longitudinal velocity for an infinitesimal segment of the...