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Why is the molar specific heat of a diatomic gas usually larger than that of monoatomic gas?
Diatomic gases have more degrees of freedom. They are also larger in size and mass. specific heat is proportional to the number of degrees of freedom; monatomic gases can only move linearly and have 3 degrees of freedom, molecules can also rotate and vibrate, so have more degrees of freedom.
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How does the size of a nitrogen molecule compare to that of propane?
A nitrogen molecule (N2) is smaller than a propane molecule (C3H8). The size of a molecule is determined by its molecular weight and structure. Nitrogen is a diatomic molecule composed of two nitrogen atoms, while propane is a larger molecule composed of three carbon and eight hydrogen atoms.
Why bromine is the only non metal which is liquid?
Halogens exist as diatomic molecules so Bromine exists as Br2, Now the state of any element is determined by the forces which hold the structure/state together, in the diatomic molecules the most important are Van Der Waals forces of attraction specifically the London dispersion forces, which increase as the number of electrons in the diatomic molecule increase. F2 ( 18 electrons) and Cl2 (34 electrons) are gases under normal conditions, Br2 (70 electrons) is a liquid and I2 (106 electrons) is a solid.
Which has larger atomic size F or F ion?
Ionization energy increase across a period and decreases down a group, therefore the the element with the greater ionization energy would be found in the top right of the periodic table. In this instance fluorine, F would have the greater ionization energy.
How does the size of a carbon molecule compare to that of hydrogen?
A carbon atom is about 1.5 times as big as a hydrogen atom.You'd need to be more specific about what you mean by "a carbon molecule". Carbon molecules can be enormous.
How big is a bag of baking soda?
A typical bag of baking soda for household use is usually around 1 pound in size, although larger sizes are also available for commercial use.
Why is the molar specific heat of diatomic gas larger than that of a monoatomic gas?
Diatomic gases have more degrees of freedom. They are also larger in size and mass. specific heat is proportional to the number of degrees of freedom; monatomic gases can only move linearly and have 3 degrees of freedom, molecules can also rotate and vibrate, so have more degrees of freedom.
Does neon exist in monoatomic gas at standard temperature and pressure?
No, neon exists as a monatomic gas at standard temperature and pressure. It does not readily form diatomic molecules or other larger clusters like some other elements.
Why molar specific heat of diatomic gas is larger than that of mono atomic gas?
The molar specific heat of diatomic gases is larger than that of monatomic gases because diatomic gases have more degrees of freedom. While monatomic gases can only store energy through translational motion, diatomic gases can store energy in translational, rotational, and vibrational modes. This additional ability to rotate and vibrate requires more energy, resulting in a higher molar specific heat for diatomic gases compared to monatomic gases.
When helium is add to a balloon does the molecules become larger?
No. Helium is not molecular it is a monoatomic gas.
Why is the molar specific heat of the diatomic gas usually larger than that of mono-atomic gas?
A monatomic gas has no contribution from vibration to its specific heat. A diatomic gas has both vibration of the two atoms as the stretch and compress the bond between them and can rotate faster or slower. With more ways to store energy than just translational energy, diatomic gases tend to have higher heat capacities.
Does larger things have smaller volume?
No. Larger things usually have larger volumes.
What is a community hospital?
it is usually a smaller hospital that serves a specific community. any extreme or complicated illness or surgey would be transferred to a larger hospital.
Do seed is larger apple or cherry?
Cherry seeds usually larger.
Which is usually larger an sea or an ocean?
oceans are generally much larger.
What are Roman Carriages called?
The Romans had names for specific types of carriages just a we have names for specific types of motor cars such as a sedan, suv, van, etc. In Latin, the word for a carriage in general was "vehiculim". A "carpentum" or a "pilentum" was a small light usually two-wheeled carriage and a "raeda" or a "petorritum" was a larger, four wheeled traveling carriage, usually quite comfortable.The Romans had names for specific types of carriages just a we have names for specific types of motor cars such as a sedan, suv, van, etc. In Latin, the word for a carriage in general was "vehiculim". A "carpentum" or a "pilentum" was a small light usually two-wheeled carriage and a "raeda" or a "petorritum" was a larger, four wheeled traveling carriage, usually quite comfortable.The Romans had names for specific types of carriages just a we have names for specific types of motor cars such as a sedan, suv, van, etc. In Latin, the word for a carriage in general was "vehiculim". A "carpentum" or a "pilentum" was a small light usually two-wheeled carriage and a "raeda" or a "petorritum" was a larger, four wheeled traveling carriage, usually quite comfortable.The Romans had names for specific types of carriages just a we have names for specific types of motor cars such as a sedan, suv, van, etc. In Latin, the word for a carriage in general was "vehiculim". A "carpentum" or a "pilentum" was a small light usually two-wheeled carriage and a "raeda" or a "petorritum" was a larger, four wheeled traveling carriage, usually quite comfortable.The Romans had names for specific types of carriages just a we have names for specific types of motor cars such as a sedan, suv, van, etc. In Latin, the word for a carriage in general was "vehiculim". A "carpentum" or a "pilentum" was a small light usually two-wheeled carriage and a "raeda" or a "petorritum" was a larger, four wheeled traveling carriage, usually quite comfortable.The Romans had names for specific types of carriages just a we have names for specific types of motor cars such as a sedan, suv, van, etc. In Latin, the word for a carriage in general was "vehiculim". A "carpentum" or a "pilentum" was a small light usually two-wheeled carriage and a "raeda" or a "petorritum" was a larger, four wheeled traveling carriage, usually quite comfortable.The Romans had names for specific types of carriages just a we have names for specific types of motor cars such as a sedan, suv, van, etc. In Latin, the word for a carriage in general was "vehiculim". A "carpentum" or a "pilentum" was a small light usually two-wheeled carriage and a "raeda" or a "petorritum" was a larger, four wheeled traveling carriage, usually quite comfortable.The Romans had names for specific types of carriages just a we have names for specific types of motor cars such as a sedan, suv, van, etc. In Latin, the word for a carriage in general was "vehiculim". A "carpentum" or a "pilentum" was a small light usually two-wheeled carriage and a "raeda" or a "petorritum" was a larger, four wheeled traveling carriage, usually quite comfortable.The Romans had names for specific types of carriages just a we have names for specific types of motor cars such as a sedan, suv, van, etc. In Latin, the word for a carriage in general was "vehiculim". A "carpentum" or a "pilentum" was a small light usually two-wheeled carriage and a "raeda" or a "petorritum" was a larger, four wheeled traveling carriage, usually quite comfortable.
Was the larger biplane wing on the top or bottom?
The larger wing was usually on the top.
Why don't carbon atoms form diatomic gas c2?
Carbon atoms do not form a diatomic gas like C₂ because they typically form more stable structures through covalent bonding with other carbon atoms or different elements, leading to larger molecular or network structures. While diatomic molecules can exist, carbon's tendency to form four covalent bonds results in complex arrangements, such as in graphite or diamond, rather than simple diatomic forms. Additionally, the energy required to form a stable C₂ molecule is not favorable under normal conditions.
