Sulfur is a yellow solid at room temperature and 1 atm.
The density of calcium chloride at room temperature is about 2.15 grams per cubic centimeter.
Room temperature is 25 oC so it would still be a solid. It would be 104 degrees F... So. unless the substance's boiling point is below that, it would be a solid. otherwise it would be a gas.
Boron exists in a crystalline form at room temperature.
The density of cesium is 1.93 grams per cubic centimeter at room temperature.
mercury
Water, the rest are gases.
The density of the substance is 2.42 g/cm3 (density = mass/volume). This information can be used to identify the substance based on its known density at room temperature.
Mercury has the highest known liquid density at room temperature, which is about 13.6 times denser than water.
The room with the highest temperature would have the highest average kinetic energy, as temperature is a measure of the average kinetic energy of particles in a substance.
At room temperature Mercury (Hg) is the highest density liquid (13.534 kg/L), though molten gold (Au) and Platinum (Pt) - at higher temperature that is - are more dense.
The substance with a density of 0.647 g/cmΒ³ is likely ethanol at room temperature. Ethanol has a density close to this value, which can vary slightly depending on temperature and impurities.
If the ignition temperature is lower than the room temperature, the substance will not ignite or burn spontaneously at room temperature. Ignition temperature refers to the minimum temperature required for a substance to ignite and sustain combustion, so if it is lower than the room temperature, the substance will remain stable at that temperature.
Gold is a substance that is malleable and is a solid at room temperature.
what is the density of scandium at room temperture?
No, iodine does not have the highest density. It has a density of around 4.93 grams per cubic centimeter. Some elements like osmium, iridium, and platinum have higher densities than iodine.
The density of carbon monoxide at room temperature 1,14 g/L.