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If density = mass/volume, and your volume increases while mass remains the same... Then the denominator increases which would decrease the density
Jupiter would suddenly have aquired enough mass that the temperature and pressure in its core would begin the fusion of hydrogen atoms. Simultaneously Jupiter would also have enough gravity to keep that energy from suddenly exploding outwards. That would make Jupiter a star.
No. That would violate the Newtonian principle of Conservation of Mass.
It will increase. Density is mass/volume. Mass remains constant since no matter is entering or escaping. Lowering the temperature decreases the volume. Same mass in a smaller space= increased density.
Size as in Volume or Mass?It doesn't affect temperature per se, But the larger the volume or mass the longer it would take to heat up or to cool down (Ie., energy Transfer).Also to reach a specific temperature; a small mass would need less total energy transferred than a mass that is larger.
Generally, the air temperature of a descending air mass will increase. This is due to the incredible mount of pressure placed on it. Generally, the air mass will also experience an increase in humidity.
Temperature has no effect on molar mass
If density = mass/volume, and your volume increases while mass remains the same... Then the denominator increases which would decrease the density
nothing would happen
temperature would because it's controlled
Jupiter would suddenly have aquired enough mass that the temperature and pressure in its core would begin the fusion of hydrogen atoms. Simultaneously Jupiter would also have enough gravity to keep that energy from suddenly exploding outwards. That would make Jupiter a star.
No. That would violate the Newtonian principle of Conservation of Mass.
NO We can think of temperature as mass with a speed. No mass no temperature, no speed, no temperature. Therefore, if mass went to absolute zero, it would have no speed and could not oscillate (emit energy) in the first place. So most agree that no mass can go to absolute rest in the first place.
It will increase. Density is mass/volume. Mass remains constant since no matter is entering or escaping. Lowering the temperature decreases the volume. Same mass in a smaller space= increased density.
If a candy bar was cut in half the mass would decrease.
the acceleration decreases
Your mass will stay the same. Mass is always the same no matter what.