.As in the above diagram shown....as we are moving along Y direction (upside) internal energy is increasing
.So from diagram state B must have highest internal energy
The diagram shows four states of a system, each with a different internal energy. State B...
The diagram shows four states of a system, each with a different internal energy. State B AE, State C AE al energy, E State A Which of the states of the system has the greatest internal energy? State D State B State A State C Write an expression for the difference in internal energy between State A and State B in terms of AE, and AE. AEA-B = 1 Write an expression for the difference in internal energy between State...
The pV diagram shows three possible paths for changing a system from an initial state, represented by point 1, to a final state, represented by point 2. “For which path is the change in internal energy of the system to least?” A. Path 1-4-2 B. Path 1-3-2 C. Path 1-2 D. The change in internal energy of the system is the same for all these paths ●2 3 ●4
The diagram above shows the free energy G for several possible states (gray lines) of a chemical reaction. The black arrows represent possible transitions between these states, and the brackets represent the corresponding free energy differences. Consider the meaning of the different terms in the relation: ?G = ?G°' + RTlnQ Select the option which most closely corresponds to each description. Question 7 (1 point) Standard conditions Actual conditions 0 Equilibrium The diagram above shows the free energy G for...
The state of an ideal gas can be represented by a point on a PV (pressure-volume) diagram. If you know the quantity of gas, n, a unique point in pressure (P) and volume (V) can be used to determine a temperature (T). Each point on a PV diagram also has a single internal energy (U) assigned to it. If a process starts at a point and returns to that same point on a PV diagram, it returns to the same...
The diagram below shows the first four energy levels in a hydrogen atom. Illustrate the allowed transition from the excited state to the ground state with an arrow that releases the shortest wavelength radiation. Explain. Then answer questions a & b.
The diagram shows three scales. On each scale are different object(s) on one side which balance the object(s) on the other side. DIAGRAM 1 DIAGRAM 2 DIAGRAM 3 How many will balance ae?
please draw energy diagram for each of these conditions. please draw transition states for all conditions Mort NaI + was ļ - was ļ , +5 b) vas c) tor + was A&T d) ter + OH e) e t 2014 f) Mort noh com notty Given the reactions incluce structure above, draw an energy diagram for each. of transition states (a,b,c) and intermediates (die, f)
14. Which of the following is not a state function? a. Internal Energy b. Free Energy c. Enthalpy d. Entropy e. Heat 15. The second law of thermodynamics states that a. the entropy of a perfect crystal is zero at 0 K b. the entropy of the universe is constant. c. the energy of the universe is increasing. d. the entropy of the universe is increasing. e. the energy of the universe is constant. 16. Which of the following are...
Calculate the internal energy, entropy and the equation of states for a system composed of N indistinguishable and non-interacting particles with the partition function (9) given below (a, b and C are constants): q = C(kt)}(V – Nb) eVKY
Question 1 A Markov process has two states A and B with transition graph below. a) Write in the two missing probabilities. (b) Suppose the system is in state A initially. Use a tree diagram to find the probability B) 0.7 0.2 A that the system wil be in state B after three steps. (c) The transition matrix for this process is T- (d) Use T to recalculate the probability found in (b. Question 1 A Markov process has two...