When magnesium is heated strongly in the presence of steam, it reacts to form magnesium oxide (a white solid) and hydrogen gas.

• Refer to below links for method.

The reaction of magnesium with steam | Demonstrating the reactivity series & displacement reactions - Royal Society of Chemistry:

Reaction of Magnesium with Steam - Rugby School Chemistry:

• Compare magnesium’s reaction with cold water, hot water, and steam to illustrate the effect of temperature.

• Wear goggles and a lab coat; magnesium burns with an intense light—avoid looking directly at it.
• Use heatproof gloves and tongs to handle hot glassware.
• Hydrogen gas is flammable; ensure good ventilation and keep away from open flames except during controlled splint testing.
• Ensure the combustion tube is heat-resistant and securely clamped.
• Do not touch magnesium oxide residue until the apparatus has cooled.

• Why does magnesium react only slowly with cold water but rapidly with steam? (Cold water produces insoluble magnesium hydroxide that coats the metal; steam supplies higher energy and avoids this passivation.)
• What is the balanced chemical equation for magnesium reacting with steam? (Mg + H₂O → MgO + H₂)
• What type of reaction is taking place? (Redox reaction: magnesium is oxidized, hydrogen ions are reduced.)
• Why does magnesium form an oxide with steam instead of a hydroxide? (Hydroxides decompose at high temperatures to oxides and water.)