Well, isn't that a happy little question! Objects like balloons, cotton candy clouds, and feathers have a large volume but a small mass. They float and dance gently in the air, bringing lightness and joy wherever they go.
mass and velocitythe object's speed and mass
To convert between mass and volume you need the density of the substance. Density = mass/volume. It is not clear what you mean by count. If you are thinking of large scale objects then if they are all alike, you can convert mass to count if you know the mass of one of them. I wonder if you are thinking of chemical quantity expressed in moles? The conversion in this case is moles = mass/molar mass.
If they have different densities. Imagine a balloon. Now fill it up with air: it expands. Imagine another balloon, and fill it with water until it has the same volume as the first one. The water filled one will be much heavier. This is because the water particles are much closer together; you can fit more of them in the same volume. The gas particles, on the other hand, bounce around with lots of empty space in between them. There are fewer gas particles and the balloon has less mass.
The density an object depends not only on the mass but also its volume i.e. D=M/V. Therefore, if two objects had the same mass and volume then they would have the same density. By contrast, if two objects had the same mass but different volumes then they would not have the same volume. In fact, the object with the least volume would be more dense or would have would have a greater density.
You just need to rework the density formula: D = M / V, where D is density, M is mass, and V is volume. So all you need to do is put in the Density and Mass and solve for V: D = M / V D * V = M V = M / D And so our volume becomes Mass divided by Density.
Objects like balloons, styrofoam, cotton balls, and bubbles have large volume but small mass and weight. This is because their density is low, meaning they have very little mass compared to the amount of space they occupy.
An object with a high density, such as a lead ball, can have a small capacity (volume) but a large mass. This is because density is the ratio of an object's mass to its volume, so objects with high density have a lot of mass packed into a small space.
Some examples of objects that have large volume but very small mass and weight include balloons filled with helium gas, foam materials, and large empty containers made of lightweight materials like plastic or aluminum. These objects displace a lot of space but have low density, resulting in low mass and weight.
"large density" ===> (relatively large mass) fits into (relatively small volume)
Large objects cool more slowly than small objects because they have a smaller surface area relative to their volume, making it harder for heat to escape. Additionally, large objects have more thermal mass, allowing them to retain heat for longer periods of time. This results in a slower cooling rate compared to similar small objects.
No, Density is directly proportional to mass; Density increases as the mass increases, density decreases when mass decreases. Density is inversely proportional to volume; Density decreases when volume increases, density increases when volume decreases.
Density is not the same as mass. Density is mass divided by volume.Density is not the same as mass. Density is mass divided by volume.Density is not the same as mass. Density is mass divided by volume.Density is not the same as mass. Density is mass divided by volume.
You have decreased the volume
A mineral's density increases as its mass per unit volume increases. If a mineral has a small mass and large unit volume, its density is smaller. Whereas, if a mineral has a large mass and a small unit volume, its density is greater.
Density. This is quantified as a mass over a volume, so if you know the volume, the density will allow you to determine the mass of an object. Density equals mass divided by volume so mass is equal to density multiplied by volume.
Yes, a small object can have more density than a large object if the small object has more mass compared to its volume. Density is calculated as mass per unit volume, so an object with greater mass and smaller volume will have higher density.
Grams. * * * * * That is total rubbish. Grams is a measure of mass, not volume. Volume may be measured in cubic centimetres ( 1 cc = 1 millilitre) for small objects, litres for medium sized objects to cubic metres for "normal" large objects and cubic kilometres for mountains or bigger.