1
KCET 2023
MCQ (Single Correct Answer)
+1
-0

Seven identical discs are arranged in a planar pattern, so as to touch each other as shown in the figure. Each disc has mass $$m$$ radius $$R$$. What is the moment of inertia of system of six discs about an axis passing through the centre of central disc and normal to plane of all discs?

KCET 2023 Physics - Rotational Motion Question 6 English

A
$$27 ~m R^2$$
B
$$100 ~m R^2$$
C
$$55 \frac{m R^2}{2}$$
D
$$85 \frac{m R^2}{2}$$
2
KCET 2023
MCQ (Single Correct Answer)
+1
-0

The true length of a wire is $$3.678 \mathrm{~cm}$$. When the length of this wire is measured using instrument $$A$$, the length of the wire is $$3.5 \mathrm{~cm}$$. When the length of the wire is measured using instrument $$B$$, it is found to have length $$3.38 \mathrm{~cm}$$. Then, the

A
measurement with $$A$$ is more accurate and precise.
B
measurement with $$A$$ is more accurate while measurement with $$B$$ is more precise.
C
measurement with $$B$$ is more accurate and precise.
D
measurement with $$A$$ is more precise while measurement with $$B$$ is more constant.
3
KCET 2023
MCQ (Single Correct Answer)
+1
-0

A body is moving along a straight line with initial velocity $$v_0$$. Its acceleration $$a$$ is constant. After $$t$$ seconds, its velocity becomes $$v$$. The average velocity of the body over the given time interval is

A
$$\bar{v}=\frac{v^2-v_0^2}{a t}$$
B
$$\bar{v}=\frac{v^2+v_0^2}{2 a t}$$
C
$$\bar{v}=\frac{v^2+v_0^2}{a t}$$
D
$$\bar{v}=\frac{v^2-v_0^2}{2 a t}$$
4
KCET 2023
MCQ (Single Correct Answer)
+1
-0

A closed water tank has cross-sectional area $$A$$. It has a small hole at a depth of $$h$$ from the free surface of water. The radius of the hole is $$r$$ so that $$r \ll \sqrt{\frac{A}{\pi}}$$. If $$p_o$$ is the pressure inside the tank above water level and $$p_a$$ is the atmospheric pressure, the rate of flow of the water coming out of the hole is ( $$\rho$$ is density of water)

KCET 2023 Physics - Fluid Mechanics Question 5 English

A
$$\pi r^2 \sqrt{2 g h}$$
B
$$\pi r^2 \sqrt{2 g h+\frac{2\left(p_0-p_a\right)}{\rho}}$$
C
$$\pi r^2 \sqrt{2 g H}$$
D
$$\pi r^2 \sqrt{g h+\frac{2\left(p_0-p_a\right)}{\rho}}$$
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