YES. The equation for density is D=M/V, that is density equals mass divided by volume. If the mass of an object is 4g and the volume of an object is 2ml then the density is 2g/ml. On the other hand if the mass of an object is 8g and the volume is 2ml, then the density is 4g/ml. Thus an increase in density. But be careful. If you are asking this: If I have more mass of the same substance is the larger mass more dense? In that case the answer is no, unless you are putting the larger mass into the same volume as the smaller mass.
Intensive properties remain the same with a change in the amount of a substance - for example: temperature and density Extensive properties do not remain the same with a change in the amount of a substance - for example: mass and volume
A physical process does not change the chemical identity of a substance. Examples include changing the state of matter (like melting or freezing), dissolving, or distillation.
The density of a substance is a characteristic property that is inherent to the substance itself. It is defined as mass per unit volume and remains constant regardless of the amount of the substance present. Therefore, as you increase the volume, the mass also increases proportionally, maintaining the same density.
This statement is incorrect. Changing the shape or amount of a substance can alter its physical and chemical properties. For example, breaking a substance into smaller pieces can increase its surface area and affect its reactivity, while changing the amount of a substance can change its concentration and impact its behavior in a reaction.
The density of a substance does not change with the sample size because density is an intrinsic property of the material, determined by its mass and volume. As you increase the sample size, both the mass and volume of the substance increase proportionally, resulting in no change in density. This relationship is described by the formula density = mass/volume, which remains constant regardless of the amount of the substance being measured.
You can change the density of a substance by changing its volume. Density is equivalent to mass over volume. So changing the volume affects density.
The density of a substance remains constant regardless of the amount of the substance. Density is an intrinsic property of a material and is determined by its mass and volume. Increasing the amount of substance will only change the mass and volume proportionally, thus keeping the density constant.
nothing happpens. changing the shape doesnt do anything and adding more doesnt do anything either. the density will change tho if you add another chemical or substanceansthe above comment is correct. Unless you applied a force that changed its overall volume of course, whilst changing its shape.
The density will change if the amount of matter in the same volume changes. You can have more matter wihtout changing the density, if the matter occupies more space.
Density is a property that depends on the mass and volume of the object, not its shape. Changing the shape of an object does not alter the amount of mass or volume it contains, so the density remains the same.
Intensive properties remain the same with a change in the amount of a substance - for example: temperature and density Extensive properties do not remain the same with a change in the amount of a substance - for example: mass and volume
No, the mass of an oil does not change its density. Density is a physical property of a substance that remains constant regardless of the amount or mass of the substance. It is defined as mass per unit volume.
Yes. The density of a certain substance does not change according to the amount of that substance.
Intensive because it doesn't depend on the amount of material.
Density and temperature can both vary for a substance without changing the identity of the substance. The density of a substance can change with temperature, pressure, or the presence of impurities, while the temperature of a substance can change due to external factors like heating or cooling.
The density of a pure substance can change by altering its temperature. As temperature increases, most substances expand and therefore decrease in density, whereas as temperature decreases, most substances contract and increase in density.
A physical process does not change the chemical identity of a substance. Examples include changing the state of matter (like melting or freezing), dissolving, or distillation.