Assuming you are talking about the same thing, this can be shown through the density equation: Mass = Density by volume. Assuming density stays the same, if mass decreases, volume should proportionally decrease
If mass stays the same and density decreases, then the volume must increase. This is because density is mass divided by volume, so if density decreases while mass remains constant, the volume must increase to maintain the same mass.
No its density decreases assuming volume remains constant. Density is defined as mass / volume, so if mass (the numerator) decreases but volume (the denominator) doesn't change, the quotient will decrease.
Density is mass / volume. Therefore, when mass decreases, density will also decrease.Density is mass / volume. Therefore, when mass decreases, density will also decrease.Density is mass / volume. Therefore, when mass decreases, density will also decrease.Density is mass / volume. Therefore, when mass decreases, density will also decrease.
The mass either decreases or increases
If mass decreases while volume decreases as well, the density of the object will remain unchanged. Density is calculated by dividing mass by volume, so as long as both decrease proportionally, the density will stay constant.
Decreasing the mass of an object while keeping its volume constant will increase its density. Density is calculated by dividing mass by volume, so as mass decreases and volume remains the same, the density value will increase.
Density = mass / volume. If the mass decreases, the density decreases.
If the volume of an object decreases but its mass remains the same, the density of the object will increase. Density is calculated as mass divided by volume, so if the volume decreases while the mass stays constant, the overall density will be higher.
When the volume increases and the mass decreases, the density of the object decreases. This means that the object becomes less compact or dense for the given volume. The relationship between volume and mass is important when considering the physical properties of an object.
decreases
density increases
No mass increases as density increases because the formula for density is density= mass/ volume. In a fraction, if the numerator increases, then the end product increases. So in the density formula, mass is the numerator and directly correlates with the density.