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If \(E\) and \(G\) respectively denote energy and gravitational constant, then \(\frac{E}{G}\) has the dimensions of:

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If \(E\) and \(G\) respectively denote energy and gravitational constant, then \(\frac{E}{G}\) has the dimensions of:
(A) \(\left[M^{2}\right]\left[L^{-1}\right]\left[T^{0}\right]\)
B \([M]\left[L^{-1}\right]\left[T^{-1}\right]\)
c \([M]\left[L^{0}\right]\left[T^{0}\right]\)
D \(\left[M^{2}\right]\left[L^{-2}\right]\left[T^{-1}\right]\)

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(A) \(\left[M^{2}\right]\left[L^{-1}\right]\left[T^{0}\right]\)
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