2SO\(_2\) \(_{(g) }\)+ O\(_2\) \(_{(g) }\) ↔ 2SO\(_3\)\(_{(g) }\) ΔH = -395.7kJmol\(^{-1}\)
In the equation, an increase in temperature will shift the equilibrium position to the

left and equilibrium constant decreases

left and equilibrium constant increases

right and equilibrium constant increases

right and equilibrium constant decreases

Download Offline App Ask a Question

Explanation

Correct Option

Video Explanation

Post your Contribution

chijioke7

7 years ago

The explanation and option are two different things, if the temperature is increased, the equilibrium is supposed to shift to the left for an exothermic reaction, which lowers the equilibrium constant

willispark

1 year ago

yes, equilibrium shifts to the left for all exothermic reactions if t

jedecoco

5 years ago

A is the correct answer

Somtodollah

1 year ago

does the equilibrium shift to the right for all exothermic reactions if temperature is increased?

Quick Questions

Ask a Question

ceoofwahala

20th June, 2026

Chemistry

2 comments

ASSAAS

20th June, 2026

English Language

5 comments

infinitehoaxx

21st May, 2026

Computer

4 comments

2SO\(_2\) \(_{(g) }\)+ O\(_2\) \(_{(g) }\) ↔ 2SO\(_3\)\(_{(g) }\) ΔH = -395.7kJmol\(^{-1}\) In the equation, an increase in temperature will shift the equilibrium position to the

Explanation

Video Explanation

Discussions (7)

2SO\(_2\) \(_{(g) }\)+ O\(_2\) \(_{(g) }\) ↔ 2SO\(_3\)\(_{(g) }\) ΔH = -395.7kJmol\(^{-1}\)
In the equation, an increase in temperature will shift the equilibrium position to the