It would sink because the object is more dense than the water.
Based on the formula Desnity= Mass/Volume. The answer would be 13.5 g/cm3
Density is calculated as Mass / Volume. Therefore for an object that has a mass of 350 grams and a volume of 95 cm^3, the density would be 3.684 g/cm^3. Water has an estimated 1g/cm^3 density, therefore the density of this object is greater than that of water and would sink.
Density is calculated as Mass / Volume. Therefore for an object that has a mass of 350 grams and a volume of 95 cm^3, the density would be 3.684 g/cm^3. Water has an estimated 1g/cm^3 density, therefore the density of this object is greater than that of water and would sink.
Density is the ratio of mass to volume. Thus, the density of an object is the mass of the object divided by its volume.
volume is how much space is in an object (an object with more volume would be bigger) weight is how heavy an object feels due to gravity (an object with more weight would be harder to lift) density is how much matter is in an amount of space (an object with more density would weigh as much as an object with less density but in a smaller space/volume)
What would be the density of an object that has a volume of 25 cm3 and 5 grams?
[object Object]
I would assume that you would use displacement to determine volume when the object is extremely complicatedly shaped.
It would not be good for finding the volume of an object that is less dense than water. Such an object would float and therefore would not displace its full volume worth of water.
If possible, fully immerse the object in water, and measure the volume of displaced water.
I would place it in a container full of liquid after measuring the liquid. I would measure the amount of liquid displaced by the object. That amount is equal to the volume of the irregular object if it is fully submerged in the liquid.
the volume of its parts would be equal to the amount off butts an object gives off