density of a substance and volume of a substance
Physical changes refer to changes of state: solid to liquid or liquid to gas (or vice versa). The chemical structure of the substance does not change, only the amount of energy it contains.
When the sugar content is greater the viscosity increase.
The amount of matter a substance is made of is called "mass".
AnswerA SoluteA substance in which another substance is dissolved, forming as solution ( -A substance, usually a liquid, capable of dissolving another substance. )A SOLUTE is usually the added substance (the lesser amount) that dissolves in the Solvent (usually the greater amount)
No, the pressure is the force exerted by the substance on the walls of its container. The word that comes to mind for "amount of substance in a certain volume" is concentration, though it might also be a somewhat awkward way of describing density.The amount of substance in a certain volume is the density of the substance. Pressure means the force applied in a unit area. So the amount of substance in a certain volume is not the pressure.
total thermal energy
total thermal energy
No change: Density is a property of the substance (physical property), which is not changed by the amount of substance.
Physical changes refer to changes of state: solid to liquid or liquid to gas (or vice versa). The chemical structure of the substance does not change, only the amount of energy it contains.
Yes. Physical changes only cause a substance to change in the appearance. You could measure if it grew in size, if it changed color, the amount of components the substance now contains after the physical change
substance
temperature
Neither. Mass, is your total amount of substance, mass never changes.
When the sugar content is greater the viscosity increase.
A liquid substance's molecules have a moderate amount of kinetic energy and still has a medium amount of intermolecular cohesion. This can be represented by drawing a group of molecules close to each other with medium length vectors.?æ
It absorbed and changed to tiny amount of heat.
There is nothing inherently wrong with the statement "As a substance freezes, it absorbs energy equal to its enthalpy of fusion." In fact, this statement is a well-established scientific principle known as the Enthalpy of Fusion. When a substance changes from a liquid phase to a solid phase (freezing), it undergoes a phase change that requires a specific amount of energy to overcome the intermolecular forces holding the substance together. This energy absorbed is known as the Enthalpy of Fusion, and it is dependent on the substance and specific conditions. Therefore, this statement accurately describes the process of freezing and provides important information about how substances behave during phase changes.