Each sugar granule has the mass (space) the granule occupies. Collectively, when in a 2kg bag of sugar, the mass is more obvious. Obviously, it would be difficult to measure a single granule (but not impossible).
When the granules dimension of a material is lowered the surface area is increased and the reaction rate is higher.
The mass of the sugar remains the same.
yes it is
74.92
the total mass will be equal to the mass of the tea added to the mass of the sugar such is the law of conservation of mass. The weight will be proportional and dependent on the gravity force of the position in space
Of course, any material occupe space.
It depends on how much granulated sugar you have. Also, sugar granules come in different sizes so you cannot measure the mass of a single granule.
All materials have mass which should be measurable.
Mass is the amount of material in an object. Mass has weight, volume, takes up space, and is measurable.
All types of matter have a mass.
When the granules dimension of a material is lowered the surface area is increased and the reaction rate is higher.
If a measurable Force moves a measurable MASS a measurable Distance, then a measurable amount of Work has been done.
The sugar granule, water, stone, air inside ball and leaves are all matter it's because all of them has mass and volume, and all of it occupies space. All of it is all made up of atoms and molecules are made of
Four measurable properties of matter are mass,weight,volume,and pressure.
The answer depends on sample of WHAT!
Those are two different things. Mass of a sugar packet . . . gram might be best. Capacity or volume of a sugar packet . . . cubic centimeter might be best.
density, mass, and volume are common.