The balanced reaction between aqueous potassium hydroxide and aqueous acetic acid is
koh (aq) + hc₂h₃o₂ (aq) → kc₂h₃o₃ (aq) + h₂ (g) koh (aq) + hc₂h₃o₂ (aq) → h₂kc₂h₃o (aq) + o₂ (g) koh (aq) + hc₂h₃o₂ (aq) → h₂c₂h₃o₃ (aq) + k (s) koh (aq) + hc₂h₃o₂ (aq) → h₂o (l) + kc₂h₃o₂ (aq) koh (aq) + hc₂h₃o₂ (aq) → oh⁻ (l) + hc₂h₃o₂⁺ (aq) + k (s)

The answer to your question is: letter D.

Explanation:

This is a neutralization reaction. In this kind of reactions, one acid and one base reacts  to produce one salt and water.

a) KOH (aq) + HC₂H₃O₂ (aq) → KC₂H₃O₃ (aq) + H₂ (g) This option is incorrect because one of the products must be water.

b) KOH (aq) + HC₂H₃O₂ (aq) → H₂KC₂H₃O (aq) + O₂ (g) This option is incorrect, oxygen is not a product.

c) KOH (aq) + HC₂H₃O₂ (aq) → H₂C₂H₃O₃ (aq) + K (s)  This option is incorrect, potassium is not a product.

d) KOH (aq) + HC₂H₃O₂ (aq) → H₂O (l) + KC₂H₃O₂ (aq) This option is the correct one.

e) KOH (aq) + HC₂H₃O₂ (aq) → OH⁻ (l) + HC₂H₃O₂⁺ (aq) + K (s) This option is incorrect, potassium and hydroxide are not products.

b i think it’s a water wheel turning in a stream

the density(ratio between mass and volume as m/v) decreases from top to bottom in periodic table group as the size increases and nuclear charge decreases. but in periods density increases from left to right as atom size decreases and nuclear charge increases.