yes
Magnesium chloride can exist as a solid, liquid, or aqueous solution depending on its physical state. Solid magnesium chloride is a crystalline substance, liquid magnesium chloride is a molten form, and aqueous magnesium chloride is a solution in water. It does not exist as a gas under normal conditions.
* Clinopyroxenes (monoclinic) ** Aegirine (Sodium Iron Silicate) ** Augite (Calcium Sodium Magnesium Iron Aluminium Silicate) ** Clinoenstatite (Magnesium Silicate) ** Diopside (Calcium Magnesium Silicate, CaMgSi2O6) ** Esseneite (Calcium Iron Aluminium Silicate) ** Hedenbergite (Calcium Iron Silicate) ** Hypersthene (Magnesium Iron Silicate) ** Jadeite (Sodium Aluminium Silicate) ** Jervisite (Sodium Calcium Iron Scandium Magnesium Silicate) ** Johannsenite (Calcium Manganese Silicate) ** Kanoite (Manganese Magnesium Silicate) ** Kosmochlor (Sodium Chromium Silicate) ** Namansilite (Sodium Manganese Silicate) ** Natalyite (Sodium Vanadium Chromium Silicate) ** Omphacite (Calcium Sodium Magnesium Iron Aluminium Silicate) ** Petedunnite (Calcium Zinc Manganese Iron Magnesium Silicate) ** Pigeonite (Calcium Magnesium Iron Silicate) ** Spodumene (Lithium Aluminium Silicate) * Orthopyroxenes (orthorhombic) ** Hypersthene ** Donpeacorite, (MgMn)MgSi2O6 ** Enstatite, Mg2Si2O6 ** Ferrosilite, Fe2Si2O6 ** Nchwaningite (Hydrated Manganese Silicate) * Schefferite, Ca(Mg,Fe,Mn)Si2O6 * Zinc schefferite, Ca(Mg,Mn,Zn)Si2O6 * Jeffersonite, Ca(Mg,Fe,Mn,Zn)Si2O6 * Leucaugite, Ca(Mg,Fe,Al)(Al,Si)2O6 * Calcium-Tschermak's molecule, CaAlAlSiO6
Forsterite is a magnesium silicate mineral commonly found in meteorites. It is a type of olivine mineral that forms in the early stages of planet formation. Forsterite is also known as Mg-rich olivine.
Ionic compounds tend to have high melting points and even higher boiling points. Magnesium iodide is very definitely a solid at the temperature of any room I'd want to be in. Its boiling point is over 1000 degrees Celsius.
hydroxides are insoluble with exceptions of Ba, Sr, Ca and all ions of group 1 with a hydroxide are soluble... therefore, magnesium hydroxide is a solid. The question of its solubility in anything does not relate to whether it is solid or not. Temperature is also involved. Magnesium hydroxide is a solid at "room temperature". Carbon dioxide is a gas at room temperature, but a solid at low temperatures.
Magnesium is in the state of a solid form.
The chemical formula of magnesium silicate is MgSiO3.
No, Magnesium is a solid metal, melting at 922 K.
The word would be talc. Talc is made of magnesium silicate.
Magnesium is a solid in it's natural state on Earth. It melts at 1,202 degrees Fahrenheit, at which point it is a liquid. It boils away at 1,994 degrees Fahrenheit, at which point it is a gas.
Magnesium is a solid at room temperature. It is a shiny metal with a silvery-white color that can be found in various forms such as powder, flakes, and solid blocks.
No, Magnesium silicate is MgSiO3, an inorganic compound of magnesium, silicon, and oxygen. Magnesium stearate is Mg(C18H35O2)2, an organic compound of magnesium, carbon, hydrogen, and oxygen.
Magnesium chloride can exist as a solid, liquid, or aqueous solution depending on its physical state. Solid magnesium chloride is a crystalline substance, liquid magnesium chloride is a molten form, and aqueous magnesium chloride is a solution in water. It does not exist as a gas under normal conditions.
The mineral olivine is (Fe, Mg)2SiO4, or ferromagnesian silicate.
* Clinopyroxenes (monoclinic) ** Aegirine (Sodium Iron Silicate) ** Augite (Calcium Sodium Magnesium Iron Aluminium Silicate) ** Clinoenstatite (Magnesium Silicate) ** Diopside (Calcium Magnesium Silicate, CaMgSi2O6) ** Esseneite (Calcium Iron Aluminium Silicate) ** Hedenbergite (Calcium Iron Silicate) ** Hypersthene (Magnesium Iron Silicate) ** Jadeite (Sodium Aluminium Silicate) ** Jervisite (Sodium Calcium Iron Scandium Magnesium Silicate) ** Johannsenite (Calcium Manganese Silicate) ** Kanoite (Manganese Magnesium Silicate) ** Kosmochlor (Sodium Chromium Silicate) ** Namansilite (Sodium Manganese Silicate) ** Natalyite (Sodium Vanadium Chromium Silicate) ** Omphacite (Calcium Sodium Magnesium Iron Aluminium Silicate) ** Petedunnite (Calcium Zinc Manganese Iron Magnesium Silicate) ** Pigeonite (Calcium Magnesium Iron Silicate) ** Spodumene (Lithium Aluminium Silicate) * Orthopyroxenes (orthorhombic) ** Hypersthene ** Donpeacorite, (MgMn)MgSi2O6 ** Enstatite, Mg2Si2O6 ** Ferrosilite, Fe2Si2O6 ** Nchwaningite (Hydrated Manganese Silicate) * Schefferite, Ca(Mg,Fe,Mn)Si2O6 * Zinc schefferite, Ca(Mg,Mn,Zn)Si2O6 * Jeffersonite, Ca(Mg,Fe,Mn,Zn)Si2O6 * Leucaugite, Ca(Mg,Fe,Al)(Al,Si)2O6 * Calcium-Tschermak's molecule, CaAlAlSiO6
Magnesium is a solid at normal temperature and pressure.
Magnesium is primarily found in solid form, such as in metal or powder. However, magnesium salts, like magnesium chloride or magnesium sulfate, can be dissolved in water to create liquid solutions that contain magnesium. These solutions are often used in supplements and medical applications. So, while elemental magnesium itself is not liquid, magnesium compounds can exist in liquid form when dissolved.