For many purposes we can treat ammonia (NH,) as an ideal gas at temperatures above its boiling point of -33. °C. Suppose the pressure on a 53.0 g sample of ammonia gas at -11.0°C is cut in half. O yes Is it possible to change the temperature of the ammonia at the same time such that the volume of the gas doesn't change? no If you answered yes, calculate the new temperature of the gas. Round your answer to the nearest °C.

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**Topic: Application of Ideal Gas Law to Ammonia** Ammonia (\(NH_3\)) is often modeled as an ideal gas for calculations at temperatures above its boiling point, which is \(-33.0^\circ \text{C}\). Consider a scenario where the pressure on a \(53.0 \, \text{g}\) sample of ammonia gas at \(-11.0^\circ \text{C}\) is reduced by half. --- **Question:** Is it possible to change the temperature of the ammonia such that its volume remains constant despite the change in pressure? - \( \bigcirc \) Yes - \( \bigcirc \) No **Follow-up:** If you answered "yes," calculate the new temperature of the gas. Round your answer to the nearest \( \text{C}^\circ \). \[ \boxed{\phantom{0}} \] °C --- This exercise involves applying the combined gas law, which relates pressure, volume, and temperature of an ideal gas. Please calculate precisely and fill in the solution as required.