h. Answer with True (T) or False (F). 5. In pipe series system velocities are equal. 6. In parallel pipe system velocities are not equal. 7. You could use Bernoulli equation between two tanks at branched pipe system. 8. Top width for trapeoidal channel = base width+ 2 (water depth" longitudinal slope). 9. Specific volume in FLT system FT'A 10. Force per unit length in MLT system MT.

h. Answer with True (T) or False (F). 5. In pipe series system velocities are equal. 6. In parallel pipe system velocities are not equal. 7. You could use Bernoulli equation between two tanks at branched pipe system. 8. Top width for trapeoidal channel = base width+ 2 (water depth" longitudinal slope). 9. Specific volume in FLT system FT'A 10. Force per unit length in MLT system MT.

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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Question

i need the answer quickly

h. Answer with Truc (T) or False (F).
5. In pipe series system velocities are equal.
6. In parallel pipe system velocities are not equal.
7. You could use Bernoulli equation between two tanks at branched pipe system.
8. Top width for trapezoidal channel = base width+ 2 (water depth" longitudinal slope),
9. Specific volume in FLT system FT'L
10. Force per unit length in MLT system MT

Expert Solution

Step 1

5. For pipe in series the flow rate is same, not velocity (as diameter changes velocity will vary).

So, the given statement is false.

6. For the pipe in parallel, the head loss due to friction is same.

So, the given statement is true.

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