The following diagram shows a model of a river. a. Give a dynamic systems model for h, h2 and h3 (does not need to be in state-variable matrix form). The system inputs are qmi and qm2. b. In steady state, what is the flow out of the tank on the right? Use the following values: qmi 9m2 = 20 kg/s, A1 = Az= 1 m², p = 1 kg /m', r= 1, R = 1 / m-s; use g= 10 m/s². [Hint: This can be solved without much work. Don't spend too much time on this part.]

The following diagram shows a model of a river. a. Give a dynamic systems model for h, h2 and h3 (does not need to be in state-variable matrix form). The system inputs are qmi and qm2. b. In steady state, what is the flow out of the tank on the right? Use the following values: qmi 9m2 = 20 kg/s, A1 = Az= 1 m², p = 1 kg /m', r= 1, R = 1 / m-s; use g= 10 m/s². [Hint: This can be solved without much work. Don't spend too much time on this part.]

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Radiation can be described as the energy in the form of a particular matter or electromagnetic waves traveling in the air and can be in the form of light, sound, and heat. Radiation can be detected through special instruments like X-rays. The radiation from a cooler object is less intense as compared to the radiation from hot objects.

Question

1. The following diagram shows a model of a river.
a. Give a dynamic systems model for h1, hz and h3 (does not need to be in state-variable matrix
form). The system inputs are qmi and qm2.
b. In steady state, what is the flow out of the tank on the right? Use the following values: qm1 =
qm2 = 20 kg/s, A1 = Az=1 m², p = 1 kg / m³, r = 1, R = 1 / m-s; use g = 10 m/s². [Hint: This
can be solved without much work. Don't spend too much time on this part.]
Im2
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A
R
| A2
R
R

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