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Einstein's gravitational field equations can be rewritten in a slightly different form by rearranging the terms. Here's the standard form of the equations:

R_{μν} - 1/2 g_{μν} R + Λ g_{μν} = (8πG/c^4) T_{μν}

To rewrite these equations, we can move the Λ g_{μν} term to the other side of the equation, yielding:

R_{μν} - 1/2 g_{μν} R = (8πG/c^4) T_{μν} - Λ g_{μν}

Now, let's define a new quantity called the Einstein tensor G_{μν}, given by:

G_{μν} = R_{μν} - 1/2 g_{μν} R

Substituting this definition back into the equation, we have:

G_{μν} = (8πG/c^4) T_{μν} - Λ g_{μν}

So, the rewritten form of Einstein's gravitational field equations becomes:

G_{μν} = (8πG/c^4) T_{μν} - Λ g_{μν}

In this form, the left-hand side is the Einstein tensor, which represents the curvature of spacetime, and the right-hand side is a combination of the stress-energy tensor T_{μν} (describing the matter and energy distribution) and the cosmological constant term Λ g_{μν} (representing the energy density of empty space). This rewritten form may be more convenient for certain calculations and theoretical discussions.

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