Explanation: The First Law ensures energy conservation but cannot predict the maximum efficiency of a process, which requires the Second Law.

Explanation: The Second Law addresses direction, feasibility, and efficiency, overcoming the First Law’s limitations.

Explanation: The First Law does not address whether a process is reversible or irreversible, which the Second Law governs.

Explanation: A process can conserve energy (First Law) but be impossible due to direction or feasibility issues (e.g., unassisted heat flow to hotter body).

Explanation: It does not predict whether a process occurs naturally, like water flowing uphill, which violates spontaneity.

Explanation: The First Law balances energy but cannot determine the maximum work possible, unlike the Second Law’s efficiency limits.

Explanation: The First Law focuses on energy quantity, not quality (e.g., usefulness of heat vs. work), which requires the Second Law.

Explanation: The First Law permits heat flow from cold to hot (energy conserved), but this is not spontaneous without work, per the Second Law.

Explanation: The First Law does not determine if a process is possible, only that energy is conserved.

Explanation: The First Law ensures energy conservation but does not indicate whether a process occurs spontaneously (e.g., heat flow direction).