In the figure shown, water flows into the open vessel through pipe A at a constant rate. The water can flow out of the vessel by pipe B. The maximum flow-rate of the water in pipe B is always more than that in pipe A. Final height of the water level in the vessel would be (A) ho (B) hf (C) somewhere in-between ho and hf (DY The water level will keep oscillating in the vessel
In the figure shown, water flows into the open vessel through pipe A at a constant rate. The water can flow out of the vessel by pipe B. The maximum flow-rate of the water in pipe B is always more than that in pipe A. Final height of the water level in the vessel would be (A) ho (B) hf (C) somewhere in-between ho and hf (DY The water level will keep oscillating in the vessel
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Qn 48. correct answer is D.

Transcribed Image Text:48
49.
50.
K
O
AB
307
O A B
In the figure shown, water flows into the open vessel through pipe
A at a constant rate. The water can flow out of the vessel by pipe B.
The maximum flow-rate of the water in pipe B is always more than
that in pipe A. Final height of the water level in the vessel would be
(A) ho
(B) hf
(C) somewhere in-between h, and
(D) The water level will keep oscillating in the vessel
Frequencies of Ka X-rays of different material are measured. Which of the
following graphs may represent the relation between the frequency v and
the atomic number Z?
V
(A) a
(C) c
(B) b
(D) d
A small plate of mass m is suspended by a light string of length. A
monochromatic light beam starts falling on it and is completely absorbed. If the
energy falling on the plate per unit time is W, then the time period of oscillation
is
е
е
(A) 2T
(B) 2π
√(g+W/mc)
g²-w²/m²c²
ē
е
е
D
(D) 2π
1/2
W²
2
m²c²
g²
+
r
A
ho
Th
They
B
a
l
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