Your answer will be physical property.It can also be physical change when you're telling the density of an object. And the reason why is "density" is... physical is just those kind of stuff...
When a dropper is filled with water and placed in a bottle, it initially sinks to the bottom due to its density. As the dropper fills with water, its overall density decreases, causing it to float back to the top. This change in density allows the dropper to switch between floating and sinking based on the amount of water it holds.
Density represents mass per volume and so when homogeneous (and incompressible), an amount increase/decrease does not change density, as the mass and volume change in the same proportioning. Water density is 8.34#/cu ft, whether it is 2 cubic feet or 4 cubic feet.
To determine density using water, you can use the method of water displacement. Simply place the object in question in a container of water and measure the increase in water level. By dividing the mass of the object by the volume of water displaced, you can calculate the density.
Melting of ice is a physical change where solid ice turns into liquid water without changing its chemical composition. Boiling water is another physical change where liquid water turns into water vapor without any change in chemical properties.
here are 3 ways... 1) temperature going down 2) the salinity of the water 3) ice blocks...
here are 3 ways... 1) temperature going down 2) the salinity of the water 3) ice blocks...
Your answer will be physical property.It can also be physical change when you're telling the density of an object. And the reason why is "density" is... physical is just those kind of stuff...
No, density does not change based on the size of an object. Density is a physical property that is determined by the mass of a substance divided by its volume, so as long as the mass and volume remain constant, the density will also remain constant.
The density of water is the same regardless of volume. So the density of 2 mL of water is the same as 1 mL of water.
Density represents mass per volume and so when homogeneous (and incompressible), an amount increase/decrease does not change density, as the mass and volume change in the same proportioning. Water density is 8.34#/cu ft, whether it is 2 cubic feet or 4 cubic feet.
Density represents mass per volume and so when homogeneous (and incompressible), an amount increase/decrease does not change density, as the mass and volume change in the same proportioning. Water density is 8.34#/cu ft, whether it is 2 cubic feet or 4 cubic feet.
Density represents mass per volume and so when homogeneous (and incompressible), an amount increase/decrease does not change density, as the mass and volume change in the same proportioning. Water density is 8.34#/cu ft, whether it is 2 cubic feet or 4 cubic feet.
Density represents mass per volume and so when homogeneous (and incompressible), an amount increase/decrease does not change density, as the mass and volume change in the same proportioning. Water density is 8.34#/cu ft, whether it is 2 cubic feet or 4 cubic feet.
Density represents mass per volume and so when homogeneous (and incompressible), an amount increase/decrease does not change density, as the mass and volume change in the same proportioning. Water density is 8.34#/cu ft, whether it is 2 cubic feet or 4 cubic feet.
Density can be calculated by dividing an object's mass by its volume. Another way to find density is by using the formula: Density = mass/volume.
Salt water density really depends on a few different things. The concentration of salt and temperature are the 2 largest factors in determining the density of salt water.