🤓 Based on our data, we think this question is relevant for Professor Gong's class at Wichita State University.

We are being asked to **identify the condition where Q _{c}_{ }=K_{c} is satisfied**.

We will use the **reaction quotient, Q _{c},** and

The reaction quotient determines if a given chemical reaction is at equilibrium.

The *formula for Q* is:

$\overline{){\mathit{Q}}{\mathbf{}}{\mathbf{=}}{\mathbf{}}\frac{\mathbf{products}}{\mathbf{reactants}}}$

Any given chemical reaction at equilibrium has an equilibrium constant, K, associated with it.

The *formula for K* is:

$\overline{){\mathbf{K}}{\mathbf{}}{\mathbf{=}}{\mathbf{}}\frac{\mathbf{products}}{\mathbf{reactants}}}$

Remember the criteria used to assess the shift of the equilibrium based on the relationship of Q_{c }= K_{c}:

What condition must be satisfied so that Q_{c}=K_{c}?