You cannot add those two quantities; they are not compatible because they have different units. Think of it this way: you can't add apples and Oranges to get apples (or oranges), and you can't add 2x and 3y to get 5x (or 5y), so you can't add kilograms per cubic meter and cubic meters to get kg/m3 or m3. But you CAN multiply them! If you multiply a volume of a substance by its density, you will know how much of that substance you have. For example, if you have ten gallons of water and know that water's density is 8.34 pounds per gallon, then you know you have ten times 8.34, or 83.4 pounds of water. If you have 150 milliliters of liquid Mercury and know that mercury's density is 13.6 grams per milliliter, you can multiply 150 by 13.6 to get 2040 grams (2.04 kilograms). Note that you must have compatible units. If the volume is in fluid ounces but the density is in grams per cubic centimeter, you will have to convert one of them (or perhaps BOTH of them) so that they are compatible and can be multiplied.
You have to know the density of the material, and the density equation, Density = mass/volume. Manipulate the equation to Mass = density x volume.
Yes because the sand adds more mass to the mass of the water, therefore the density and volume also change
An object's density is inversely proportional to the object's volume. As the volume increases the density decreases, and vice versa.
Answer:The formula is:D=M/V(Density equals mass divided by volume)It is the same type of thing for Mass and Volume:M=D(V)(Mass equals Density multiplied by Volume)V=M/D(Volume equals Mass divided by Density)
Depends what metal. If I might add to the above, you cannot calculate the density of a substance without knowing its mass (weight) and its volume, since density is mass per unit volume. On the other hand, if you know the type of metal, and that it is pure, you can simply look up the density in a table since the density of all substances is constant for that substance, regardless of the weight or volume of the sample.
no you multiply
You have to know the density of the material, and the density equation, Density = mass/volume. Manipulate the equation to Mass = density x volume.
Yes because the sand adds more mass to the mass of the water, therefore the density and volume also change
Could asker add further clarification to this query? Mass = volume * density if this helps
An object's density is inversely proportional to the object's volume. As the volume increases the density decreases, and vice versa.
Time squared over distance. No, it is not "Density". Density is mass divided by VOLUME. Weight is the force of gravity acting on the mass. force = mass * acceleration. Thus, mass/force = 1/acceleration, or, in generic units, time squared over distance. Don't believe every game show answer you hear.
It will not affect mass because the mass of an object stays the same (unless you take away or add mass). It will affect volume and density. Since the object is being flattened so it takes up less space, its volume is smaller. But since it is the same amount of matter just in a smaller space, the density is greater. Basically, volume and density are inversely related (in respect to mass). With mass staying the same, as the volume decreases, the density increases.
Answer:The formula is:D=M/V(Density equals mass divided by volume)It is the same type of thing for Mass and Volume:M=D(V)(Mass equals Density multiplied by Volume)V=M/D(Volume equals Mass divided by Density)
You can dip the irregular solid in a water or other suitable liquid. This is how, you can measure the volume of the solid. The mass can be measured by weighing scale. Mass/volume = density. It is easy to measure the mass and volume of the liquid. First measure the mass the container. Then add the liquid to it. You will get the mass of the liquid. Then measure the volume of the liquid. Use the above formula to calculate the density of the liquid.
The same way you determine the density of any other object. Divide the mass by the volume. Add: density = mass/volume = 5g/1mL = 5g/mL = 5g/cm3* *1mL = 1 cm3
Mass divided by volume. Weigh the pellets to find the mass, then add the pellets to a measuring cylinder of water (or something of higher density than your pellets) and find the volume using the rise of water in the measuring cylinder
Depends what metal. If I might add to the above, you cannot calculate the density of a substance without knowing its mass (weight) and its volume, since density is mass per unit volume. On the other hand, if you know the type of metal, and that it is pure, you can simply look up the density in a table since the density of all substances is constant for that substance, regardless of the weight or volume of the sample.