how do I calculate an average energy when there are three psi unknowns? PSI= c1*psi1(x) + c2*psi2(x) + c3*psi3(x) also, how do I calculate probability when there is an energy given?
Q: 6) A scientist wants to study the properties of a certain equilibrium solid substance for various…
A:
Q: dU =T dS – P dV Re-arrange the thermodynamic identity by solving for dS. Assume we are applying this…
A: Given: The thermodynamic identity is dU=TdS-PdV. Introduction: Entropy, the measure of a system's…
Q: The following data show the probabilities for the number of cars sold in a given day at Alex's ca…
A:
Q: The highest building in Montreal is the ‘1 square building’, with a height of 203m. The…
A: “Since you have posted a question with multiple sub-parts, we will solve first three subparts for…
Q: What is the rms speed (in m/s) of a helium-3 atom in an ideal gas at a room temperature of 300…
A: Atom : Helium - 3 Temperature (T)= 300 k mass (m) = 3.016 u 1 u = 1.66×10-27 kg kB = 1.38×10-23 Jk
Q: Which of the following thermal variables is not a state function? ⦁ Pressure ⦁ Internal Energy…
A: The answer is below
Q: Suppose you have a classical system that consists of N particles moving in three dimensions. You…
A:
Q: Problem 5: On a hot day, the freezers in a particular ice cream shop maintain an average temperature…
A:
Q: Consider a simple harmonic oscillator with w = 3 x 10+* Hz. At a temperature of 321 K, what is the…
A:
Q: Question A7 a) The Debye temperature of graphite is 413 K. Estimate its thermal conductivity at 300…
A: Part (a):The thermal conductivity (k) of a material can be related to its Debye temperature (ΘD) and…
Q: 1. If 2087.5 kcal of chemical energy is converted to mechanical energy and then electrical energy,…
A: We’ll answer the first question since the exact one wasn’t specified. Please submit a new question…
Q: An ideal gas is confined to a container at a temperature of 330 K. 1)What is the average kinetic…
A: Given that the value of temperature of the ideal gas.Then We have to determine the value of average…
Q: A hypothetical speed distribution of gas molecules is defined as follows: P(v) = 0 for 0≤v < vo P(v)…
A:
Q: An ideal gas is confined to a container at a temperature of 360 K.
A: Given that, The temperature of an ideal gas, T=360 K The average kinetic energy of an atom of the…
Q: 1. An ideal gas undergoes the changes shown in the PV plane. a) Establish for each pair of variables…
A: ProcessKReason1-2Isobaric0in this process pressure remains constant 2-3Adiabatic>1in this process…
Q: For N = 12, what is the multiplicity of the macrostates H = 0?
A:
Q: Show that for an ideal gas (@T/Əv)y = 0, and (ƏT/ƏP)H %3D
A: The internal energy of an ideal gas is function of only temperature, i.e. U≡32NkT…
Q: Calculate the number of microstates that are available in a single atom of carbon in graphite. The…
A: To calculate the number of microstates available in a single atom of carbon in graphite, we can use…
Q: A plastic bag containing 0.2 kg of water at 20°C is dropped from a height of 0.5 m onto an…
A:
how do I calculate an average energy when there are three psi unknowns?
PSI= c1*psi1(x) + c2*psi2(x) + c3*psi3(x)
also, how do I calculate probability when there is an energy given?
Step by step
Solved in 2 steps
- Can anyone help me with this questionA child has a temperature of 101°F. If her total skin area is 19 m², find the energy loss per second due to radiation, as- suming the emissivity is 1. Assume the room temperature is 70°F. The Stephan-Boltzmann constant is 5.6696 × 10-8 w/m² · Kª . 2 Answer in units of W.V₁₂: V₁ = 4:1 V₁ V₂ There are 6 molecules of a gas in V₂ and none in V₁. Now a hole i made in partition. Find the probability of finding 3 molecules on each side of the partition.
- Experiment 1. The student measures the volume of the gas in the cylinder, places a known mass mon top of the piston, and then increases the temperature of the gas at constant pressure to 273C. Experiment 2. After the gas is allowed to cool back to 0C at 1 atm pressure, the student locks the piston in place, and then increases the temperature of the gas to 273C. Experiment 3. After Experiment 2 is completed, the student unlocks the piston, and a computer-controlled heat source maintains the temperature at a constant 273C. After Experiment 2, how do the pressure and volume change (increase/decrease/remain the same)? After Experiment 3?Interstellar space is quite different from the gaseous environments we commonly encounter on Earth. For instance, a typical density of the medium is about 1 atom cm−3 and that atom is typically H; the effective temperature due to stellar background radiation is about 10 kK. Estimate the diffusion coefficient and thermal conductivity of H under these conditions. Compare your answers with the values for gases under typical terrestrial conditions. Comment: Energy is in fact transferred much more effectively by radiation.hi, please I need answer for a,b and c.
- Hi, could I get some help with this micro-macro connection physics problem involving root mean square speed? The set up is: For an atom in an ideal gas with rms speed in one direction, vx = 100 m/s, and mass m = 6.66e-27 kg, what is the temperature T in kelvin (K) to four digits of precision if Boltzman constant kB = 1.38e-23 J/K? Thank you.Using the same procedure to determine the fundamental equation of chemical thermodynamics (dG = –SdT + VdP) from the Gibbs free energy of a system (G = H – TS), can you please explain how to find the analogous fundamental equation for (A=U-TS)? Also, can you please handwrite the formula down instead of typing? I get confused with typed formulas sometime.1.7 Ideal gas response functions Find the thermal expansion coefficient and the isothermal compressibility for an ideal gas and show that in this case Cp - Cy = - a² can be reduced to Cp – Cy = Nkg for the molar specific heats. TV Кт