Question 1. A tall water tank (p = 998 Kg/m³) discharges through a well-rounded orifice to hit a plate, as shown in Figure 1. The orifice's diameter is d = 4 cm. (1) h + F Figure 1: Water tank. Answer the following questions: (a) Show that the velocity V₂ at the outflow of the orifice (Point 2 in Figure 1) is related to the force F required to hold the plate and the orifice diameter d through 4F (V₂)² = ρπα (b) Determine the depth h of the water tank if the force F required to hold the plate is 160N. You can neglect any friction head loss between Points 1 and 2. (c) Determine the depth h of the water tank if the friction head loss be- tween Points 1 and 2 is 0.5 m. You can still consider that the force F required to hold the plate is 160 N. d = 4 cm

Question 1. A tall water tank (p = 998 Kg/m³) discharges through a well-rounded orifice to hit a plate, as shown in Figure 1. The orifice's diameter is d = 4 cm. (1) h + F Figure 1: Water tank. Answer the following questions: (a) Show that the velocity V₂ at the outflow of the orifice (Point 2 in Figure 1) is related to the force F required to hold the plate and the orifice diameter d through 4F (V₂)² = ρπα (b) Determine the depth h of the water tank if the force F required to hold the plate is 160N. You can neglect any friction head loss between Points 1 and 2. (c) Determine the depth h of the water tank if the friction head loss be- tween Points 1 and 2 is 0.5 m. You can still consider that the force F required to hold the plate is 160 N. d = 4 cm

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

See similar textbooks

Similar questions

Hello, I need help with the answer of 3.14 from the picture, please.
Please answer all becuase they are all connected! UPVOTE will be given! Please write the solutions completely and legiby. Box the final answer. Answer in 3 decimal places! Strength of Materials The steel wide-flange beam has the dimensions shown. If it is made of an elastic perfectly plastic material having a tensile and compressive yield stress of o,, determine the following: Given: Allowable Stress = 300 MPa a = 20 mm b = 250 mm c = 250 mm This is already answered in bartleby but please recheck. Thanks a. Calculate the moment of inertia I, in x10 mm4 (If your answer is 667,335 x10 mm, then type 667.335) b. Calculate the yield moment of the section in kN.m. c. Calculate the plastic moment of the section in kN.m d.Calculate the shape factor of the section.
Formula Sheet Calculator 0 = 90° -- 0 = 0° A A'
Please give proper rough sketch with dimensions and try to solve within 20 minutes
By hand solution needed Needed to be solved this question correctly in 20 minutes only Please solve hundred percent correct solution Please do ASAP
Use 'PLAN' Method. Answer must be Handwritten Only .
Please do it within 50 mints. Thank you
Solve both
03. Circle the letter corresponding to the view on the right that shows the result of rotating the object on the left by the indicated amount.
Question 20 please, Show graph : )
Please show all the steps, thanks
I need help matching the following terms to the phrase it describes. Answers are used only once.