1
MHT CET 2026 16th April Evening Shift
MCQ (Single Correct Answer)
+1
-0
A body of mass m is taken from earth surface to a height h equal to twice the radius of earth, the increase in potential energy will be ($g$ = acceleration due to gravity on earth's surface) (R - radius of earth)
A
$\dfrac{2}{3}\text{mgR}$
B
$\dfrac{1}{3}\text{mgR}$
C
$\dfrac{1}{2}\text{mgR}$
D
$3\text{mgR}$
2
MHT CET 2026 16th April Evening Shift
MCQ (Single Correct Answer)
+1
-0
One thousand small water drops of equal radii combine to form a big drop. The ratio of final surface energy to the total initial surface energy is
A
$1 : 1$
B
$1 : 10$
C
$1 : 100$
D
$1 : 1000$
3
MHT CET 2026 16th April Evening Shift
MCQ (Single Correct Answer)
+1
-0
Under isothermal condition, two soap bubbles of radii $r_1$ and $r_2$ combine to form a single soap bubble of radius R. The surface tension of the soap solution is (P = outside pressure)
A
$\dfrac{P(R^3 - r_1^3 - r_2^3)}{4(r_1^2 + r_2^2 - R^2)}$
B
$\dfrac{P(R^3 + r_1^3 + r_2^3)}{2(r_1^2 - r_2^2 + R^2)}$
C
$\dfrac{P(r_1^3 - r_2^3 - R^3)}{(R^2 + r^2 + r^2)}$
D
$\dfrac{P(R^3 - r_1^3 + r_2^3)}{2(r_1^2 + r_2^2 - R^2)}$
4
MHT CET 2026 16th April Evening Shift
MCQ (Single Correct Answer)
+1
-0
A horizontal pipe carries water in a streamline flow. At point along the pipe, where the cross-sectional area is $A_1$, the velocity of water is $V_1$ and the pressure is $P_1$. What is the pressure of water at another point where the cross-sectional area is $A_2$?
A
$P_1 - \dfrac{\varrho V_2^2}{2A_1^2}(A_2^2 - A_1^2)$
B
$P_1 + \dfrac{\varrho V_1^2}{2A_2^2}(A_2^2 - A_1^2)$
C
$P_1\varrho V_1^2(A_1^2 - A_2^2)$
D
$P/\varrho V_1^2 A_2^2$

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