diotomic has a higher specific heat ratio
Oxygen can either be diatomic, monoatomic and triatomic. The question is which one is the most stable. The most stable is obviously diatomic oxygen O2. Next is triatomic (ozone) O3 and the least stable (very unstable) is monoatomic. Monoatomic oxygen is very shortly living species combining easily (due to very high electronegativity) with large number of elements including another oxygen atom. If we are required to say which is the most common form of oxygen then we need to say it is diatomic O2 existing at room temp and atmospheric pressure as a gas.
Magnesium is considered a monoatomic element in its elemental form, meaning it exists as individual atoms rather than in molecular or ionic forms. In its gaseous state, magnesium can exist as monoatomic magnesium (Mg) under high temperatures where the atoms are sufficiently energized to overcome intermolecular forces. However, under standard conditions, magnesium typically exists as a solid with a metallic lattice structure, composed of many atoms bonded together. Thus, while it can be monoatomic in specific conditions, it is primarily found in a more complex form in nature.
elfuichee
The specific heat of a substance is the amount of heat required to raise the temperature of one unit of mass of the substance by one degree Celsius. A substance with a high specific heat will require more heat to increase its temperature compared to a substance with a lower specific heat.
Water's high specific heat allows it to absorb and release large amounts of heat without changing temperature significantly, helping regulate Earth's climate. Additionally, aquatic organisms can maintain stable body temperatures in fluctuating environments due to water's high specific heat. In daily life, water's high specific heat contributes to its use as a coolant in car engines and industrial processes.
Sodium does not exist as molecules in the room temperature and pressure because it is a metal. Although it forms diatomic 'molecules' in gaseous phase at very high temperatures.
Oxygen can either be diatomic, monoatomic and triatomic. The question is which one is the most stable. The most stable is obviously diatomic oxygen O2. Next is triatomic (ozone) O3 and the least stable (very unstable) is monoatomic. Monoatomic oxygen is very shortly living species combining easily (due to very high electronegativity) with large number of elements including another oxygen atom. If we are required to say which is the most common form of oxygen then we need to say it is diatomic O2 existing at room temp and atmospheric pressure as a gas.
It's diatomic at room temperature. I have never heard of actual monoatomic chlorine, maybe some physicist created some in a lab at incredibly low or high temperatures, but I would say it is diatomic for all intents and purposes.
The specific heat of water is high. An example of an object with low specific heat would be a metal pan. Since specific heat is the energy needed to raise 1g of something 1 degree Celsius, water would have a high specific heat.
The specific heat of a material determines how much heat energy is needed to change its temperature. Materials with high specific heat require more energy to heat up or cool down compared to materials with low specific heat. This means materials with high specific heat will heat and cool more slowly than those with low specific heat.
A substance with a high specific heat capacity is one that needs a lot of heat energy pumped into it in order to raise its temperature. Substances with relatively high specific heat capacities include water, rock, and potatoes.
are often metals.have high conductivity
A substance with a high specific heat will easily change temperature.
A substance with a high specific heat will easily change temperature.
Higher Heat
elfuichee
No, mercury has a relatively high specific heat compared to other metals. Its specific heat is about 0.14 calories per gram per degree Celsius.