MHT CET 2020 16th October Morning Shift | MHT CET Year Wise Previous Years Questions

MHT CET 2020 16th October Morning Shift

MCQ (Single Correct Answer)

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The density of a metal at normal pressure $$p$$ is $$\rho$$. When it is subjected to an excess pressure, the density becomes $$\rho^{\prime}$$. If $$K$$ is the bulk modulus of the metal, then the ratio $$\frac{\rho^{\prime}}{\rho}$$ is

$$\frac{1}{1-\frac{K}{p}}$$

$$1+\frac{K}{p}$$

$$\frac{1}{1-\frac{p}{K}}$$

$$1+\frac{p}{K}$$

MHT CET 2020 16th October Morning Shift

MCQ (Single Correct Answer)

-0

For a particle performing SHM when displacement is $$x$$, the potential energy and restoring force acting on it is denoted by $$E$$ and $$F$$, respectively. The relation between $$x, E$$ and $$F$$ is

$$\frac{E}{F}+x=0$$

$$\frac{2 E}{F}-x=0$$

$$\frac{2 E}{F}+x=0$$

$$\frac{E}{F}-x=0$$

MHT CET 2020 16th October Morning Shift

MCQ (Single Correct Answer)

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Surface density of charge on a charged conducting sphere of radius $$R$$ in terms of electric field intensity $$E$$ at a distance $$r$$ in free space is ($$r>R, \varepsilon_0=$$ permittivity of free space)

$$\varepsilon_0 E\left(\frac{R}{r}\right)^2$$

$$\varepsilon_0 E \frac{R}{r}$$

$$\varepsilon_0 E\left(\frac{r}{R}\right)^2$$

$$\varepsilon_0 E \frac{r}{R}$$

MHT CET 2020 16th October Morning Shift

MCQ (Single Correct Answer)

-0

A body is thrown from the surface of the earth velocity $$\mathrm{v} / \mathrm{s}$$. The maximum height above the earth's surface upto which it will reach is ($$R=$$ radius of earth, $$g=$$ acceleration due to gravity)

$$\frac{v R}{2 g R-v}$$

$$\frac{2 g A}{v^2(R-1)}$$

$$\frac{v R^2}{g R-v}$$

$$\frac{v^2 R}{2 g R-v^2}$$

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