Answer:
Attached is the pictorial view of the solution
i)The only dominant strategy is BETH to choose RIGHT
ii) the outcome reflecting the unique Nash equilibrium in this game is as follows Andrew chooses LEFT and Beth chooses RIGHT
Explanation:
Andrew payoff = 6 when he chooses Right
Beth payoff = 5 when he chooses right
The given data
Beth : Left ; 4,5. right ; 4,5
Andrew : Left ; 8,4. right ; 5,6
i)The only dominant strategy is BETH to choose RIGHT
ii) the outcome reflecting the unique Nash equilibrium in this game is as follows Andrew chooses LEFT and Beth chooses RIGHT
Answer:
-Differential equation: d²T/dx² = 0
-The boundary conditions are;
1) Heat flux at bottom;
-KAdT(0)/dx = ηq_e
2) Heat flux at top surface;
-KdT(L)/dx = h(T(L) - T(water))
Explanation:
To solve this question, let's work with the following assumptions that we are given;
- Heat transfer is steady and one dimensional
- Thermal conductivity is constant.
- No heat generation exists in the medium
- The top surface which is at x = L will be subjected to convection while the bottom surface which is at x = 0 will be subjected to uniform heat flux.
Will all those assumptions given, the differential equation can be expressed as; d²T/dx² = 0
Now the boundary conditions are;
1) Heat flux at bottom;
q(at x = 0) is;
-KAdT(0)/dx = ηq_e
2) Heat flux at top surface;
q(at x = L):
-KdT(L)/dx = h(T(L) - T(water))
Answer:
Potential energy.
Explanation:
Potential energy, stored energy that depends upon the relative position of various parts of a system. A spring has more potential energy when it is compressed or stretched. A steel ball has more potential energy raised above the ground than it has after falling to Earth.
I hope this helps have a great day :)
Answer:
rate of flow of energy(in)=14.3514 KW
Rate of flow of energy(out)=17.8092 KW
change of energy flow=3.4578 KW
Explanation:
The explanation is given in the attachments.