The volume will increase, since most liquids tend to expand when they are heated. The mass will NOT increase, for most practical purposes - since there is something called "conservation of mass". However, the energy added to the liquid is equivalent to a small amount of mass; this is insignificant for most practical purposes.
Density = (mass) / (volume)Therefore, with just a smidgin of algebra ...Volume = (mass) / (density)
With the provided quantity of mass and density the volume of liquid would be 1000cm3. density = mass / volume → volume = mass / density = 2500 g / (2.5 g/cm^3) = 1000 cm^3 = 1 litre.
The quantity that serves as a conversion factor between mass and number of moles is the molecular mass.
In Charles' Law, the mass is held constant which means that the pressure on the gas is constant.
An appropriate volume of any liquid will have a mass of 27.6 grams.
The mass remain unchanged.
Neither - heating has no effect on mass.
Neither - heating has no effect on mass.
The mass of a given volume of a liquid is fixed.
no, but the molecules spread out. so it appears the mass has increased, but it hasn't.
The product of an object's mass and velocity is its momentum. Momentum is a vector quantity that describes the quantity of motion of an object and is given by the product of its mass and velocity.
Heating gasses or liquids has no effect on their masses.
There's no reason for the mass of anything to depend on its temperature.
Heating gasses or liquids has no effect on their masses.
A teaspoon is a measure of volume, not mass. Given the sort of precision that you have given for the mass of the substance you must have its density to convert the quantity to volume.
The TOTAL mass of the sample stays the same, but keep in mind that you can only measure it accurately if you can keep the sample confined, which can be difficult when changing a liquid to a gas. When heating a gas, it usually expands (or increases pressure in a rigid container).
The name given to the product of mass and velocity of a body is momentum. Momentum is a vector quantity that represents the motion of an object and is calculated by multiplying the mass of the object by its velocity.