A massive black hole of mass m and radius R is spinning with angular velocity omega. The power P radiated by it as gravitational waves

Q: A massive black hole of mass $m$ and radius $R$ is spinning with angular velocity $\omega$. The power $P$ radiated by it as gravitational waves is given by $P=G c^{-5} m^{x} R^{y} \omega^{z}$, where $c$ and $G$ are speed of light in free space and the universal gravitational constant, respectively. Then,

d $(d)$ Given, $P=G c^{-5} m^{x} R^{y} \omega^{z} \quad \ldots (i)$ Here, dimensions of various physical quantities are Angular speed, $\omega=\left[ T ^{-1}\right]$ Power, $P=\left[ ML ^{2} T ^{-3}\right]$ Mass, $m=[ M ]$ Radius, $R=[ L ]$ Speed, $c=\left[ LT ^{-1}\right]$ Universal gravitational constant, $G=\left[ M ^{-1} L ^{3} T ^{-2}\right]$ Substituting dimensions in Eq. $(i)$, we have ${\left[ ML ^{2} T ^{-3}\right]=} {\left[ M ^{-1} L ^{3} T ^{-2}\right]\left[ L ^{-5} T ^{5}\right][ M ]^{x} }$ ${\left[ L ^{y}\left[ T ^{-z}\right]\right.}$ Equating dimensions of same quantity, we get $1=-1+x \Rightarrow x=2$ $2=3-5+y \Rightarrow y=4$ $-3=-2+5-z \Rightarrow z=6$

SECTION - A [PHYSICS MCQ]

GSEB - English Medium

A massive black hole of mass $m$ and radius $R$ is spinning with angular velocity $\omega$. The power $P$ radiated by it as gravitational waves is given by $P=G c^{-5} m^{x} R^{y} \omega^{z}$, where $c$ and $G$ are speed of light in free space and the universal gravitational constant, respectively. Then,

A$x=-1, y=2, z=4$
B$x=1, y=1, z=4$
C$x=-1, y=4, z=4$
D$x=2, y=4, z=6$

KVPY 2017, Diffcult

STD 11 Science
JEE
STD 11 - 1. units,dimensions and measurement
Physics

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