12–105. The velocity of the water jet discharging from the orifice can be obtained from v = V2 gh, where h =2 m is the depth of the orifice from the free water surface. Determine the time for a particle of water leaving the orifice to reach point B and the horizontal distance x where it hits the surface.
12–105. The velocity of the water jet discharging from the orifice can be obtained from v = V2 gh, where h =2 m is the depth of the orifice from the free water surface. Determine the time for a particle of water leaving the orifice to reach point B and the horizontal distance x where it hits the surface.
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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Transcribed Image Text:12–105. The velocity of the water jet discharging from the
orifice can be obtained from v = V2 gh, where h = 2 m is
the depth of the orifice from the free water surface.
Determine the time for a particle of water leaving the
orifice to reach point B and the horizontal distance x where
it hits the surface.
2 m
1.5 m
В
Prob. 12–105
Transcribed Image Text:12.6
MOTION OF A PROJECTILE
53
12-99. The missile at A takes off from rest and rises
vertically to B, where its fuel runs out in 8 s. If the 12
acceleration varies with time
the missile's height hg and speed vg. If by internal controls
the missile is then suddenly pointed 45° as shown, and
allowed to travel in free flight, determine the maximum
height attained, hc, and the range R to where it crashes at D.
as shown, determine
C
*45°
В
hc
hB
D
R
a (m/s²)
40
t (s)
8
Prob. 12–99
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