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Determine the steady state of the following ODE system, where a and b are assumed constants...
Determine the steady state of the following ODE system, where a and b are assumed constants allowed in the solution: Please show all steps clearly. We were unable to transcribe this imageWe were unable to transcribe this image
With a per-worker production function y = k1/2, the steady-state capital stock per worker (k*) as...
With a per-worker production function y = k1/2, the steady-state
capital stock per worker (k*) as a function of the saving rate (s)
is given by:
A) k* = (s/
)2.
B) k* = (/s)2.
C) k* = s/.
D) k* =
/s.
Answer is A, I need to understand the process. Thanks
We were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this image
Problem 1: State Transition Matrix, Homogeneous Solution * Find Ф(t-t")-cA(1-1) fr evach of the f...
Problem 1: State Transition Matrix, Homogeneous Solution * Find Ф(t-t")-cA(1-1) fr evach of the following LTI system by diagonalizing A, (if it is diagonalizable using the Laplace transform . Compute the solution for Plot a(t) and 2(t) Plot (t) v0) time We were unable to transcribe this image
Problem 1: State Transition Matrix, Homogeneous Solution * Find Ф(t-t")-cA(1-1) fr evach of the following LTI system by diagonalizing A, (if it is diagonalizable using the Laplace transform . Compute the solution...
Problem 1: State Transition Matrix, Homogeneous Solution * Find Ф(t-t")-CA(1-1) fr each of the fo...
Problem 1: State Transition Matrix, Homogeneous Solution * Find Ф(t-t")-CA(1-1) fr each of the following LTI system by diagonalizing A, (if it is diagonalizable) using the Laplace tranform Compute the solution for ◆ Plotz,(t) and r2(t) vs. time Plot (t) v0) We were unable to transcribe this image
Problem 1: State Transition Matrix, Homogeneous Solution * Find Ф(t-t")-CA(1-1) fr each of the following LTI system by diagonalizing A, (if it is diagonalizable) using the Laplace tranform Compute the solution for...
1. a) Prove: if and , then b) State the converse above, and find a counterexample...
1.
a) Prove: if
and
, then
b) State the converse above, and find a counterexample to the
converse above.
We were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this image
Let S be the region bounded by the graphs of , , and the vertical line . a. Find the area of S b....
Let S be the region bounded by the graphs of , , and the vertical line . a. Find the area of S b. Suppose S is revolved around the line . Using the cylindrical shell method, find an integral expression equal to the volume of the solid that is created. c. Now suppose S is the base of a solid. For that solid, each cross section perpendicular to the x-axis is a rectangle with height 5 times the length...
Preview attachment IMG-3866.JPG Water flows at a steady state rate through the horizontal device shown below....
Preview attachment IMG-3866.JPG
Water flows at a steady state rate through the horizontal device
shown below.
Find:
i. V3
ii. the magnitude and direction of horizontal thrust (force) on
the flange AB
pipe1: P1= 120kPa(gauge);V1=3/ms; D1=0.5m
pipe2: V2=6m/s;D2=0.2m;open to atm
pipe3: D3=0.1m; open to atm
IMG-3866.JPG
838 KB
We were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this image
, and are independent, and these following distributions ~ ~ ~ Also, 1 Find 2 Find...
,
and
are independent, and these following distributions
~
~
~
Also,
1 Find
2 Find MGF of
3 Use
A
to find
(match part1)
We were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe...
Consider a gas of fermion at . 1) At finite temperature , find the occupation number...
Consider a gas of fermion at . 1) At finite temperature , find the occupation number of the quantum state with energy . Explain qualitatively how this distribution would influence on the specific heat of the system. T 0 We were unable to transcribe this imageWe were unable to transcribe this image T 0
Use the Engineering approach to find the following (assuming: given): a) derive the zero-input r...
Use the Engineering approach to find the following (assuming:
given): a) derive the
zero-input response of the circuit, b) derive the impulse response
of the circuit, and c) derive the zero-state response to a step
input (You are required to perform convolution by using the
graphical method on this part).
Draw the s-domain circuit (use a current source for the
capacitor initial condition) for the circuit and perform s-domain
analysis to find the following (assuming: given): a) zero-input
response of...
With a per-worker production function y = k1/2, the steady-state
capital stock per worker (k*) as a function of the saving rate (s)
is given by:
A) k* = (s/
)2.
B) k* = (/s)2.
C) k* = s/.
D) k* =
/s.
Answer is A, I need to understand the process. Thanks
We were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this image
Problem 1: State Transition Matrix, Homogeneous Solution * Find Ф(t-t")-cA(1-1) fr evach of the following LTI system by diagonalizing A, (if it is diagonalizable using the Laplace transform . Compute the solution for Plot a(t) and 2(t) Plot (t) v0) time We were unable to transcribe this image
Problem 1: State Transition Matrix, Homogeneous Solution * Find Ф(t-t")-cA(1-1) fr evach of the following LTI system by diagonalizing A, (if it is diagonalizable using the Laplace transform . Compute the solution...
Problem 1: State Transition Matrix, Homogeneous Solution * Find Ф(t-t")-CA(1-1) fr each of the following LTI system by diagonalizing A, (if it is diagonalizable) using the Laplace tranform Compute the solution for ◆ Plotz,(t) and r2(t) vs. time Plot (t) v0) We were unable to transcribe this image
Problem 1: State Transition Matrix, Homogeneous Solution * Find Ф(t-t")-CA(1-1) fr each of the following LTI system by diagonalizing A, (if it is diagonalizable) using the Laplace tranform Compute the solution for...
1.
a) Prove: if
and
, then
b) State the converse above, and find a counterexample to the
converse above.
We were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this image
Preview attachment IMG-3866.JPG
Water flows at a steady state rate through the horizontal device
shown below.
Find:
i. V3
ii. the magnitude and direction of horizontal thrust (force) on
the flange AB
pipe1: P1= 120kPa(gauge);V1=3/ms; D1=0.5m
pipe2: V2=6m/s;D2=0.2m;open to atm
pipe3: D3=0.1m; open to atm
IMG-3866.JPG
838 KB
We were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this image
,
and
are independent, and these following distributions
~
~
~
Also,
1 Find
2 Find MGF of
3 Use
A
to find
(match part1)
We were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe...
Use the Engineering approach to find the following (assuming:
given): a) derive the
zero-input response of the circuit, b) derive the impulse response
of the circuit, and c) derive the zero-state response to a step
input (You are required to perform convolution by using the
graphical method on this part).
Draw the s-domain circuit (use a current source for the
capacitor initial condition) for the circuit and perform s-domain
analysis to find the following (assuming: given): a) zero-input
response of...
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