Wiki User
∙ 15y agoThis is a question involving the determination of the volume of a container. It's as much a math question as a chemistry question, and it is extremely important to chemists to know the volume of containers. The formula for finding the volume of a containter will vary as the geometry of that container. We can't be more specific than that given the information in the question. By specifying the shape of the container, we can move further. And adding dimensions will allow us to zero in.
Wiki User
∙ 15y agoThe formula for finding the volume of liquid in a container is volume = length x width x height. Make sure to use the same units for all measurements. If the container is not a simple shape (like a cylinder or rectangle), you may need to use a different formula or method to calculate the volume.
Yes, volume is a measurement that can be used to quantify the amount of liquid present in a container. It is typically measured in units such as liters or milliliters.
The matter is in the liquid state when it takes the shape of its container but maintains a fixed volume. Liquids have defined volume but take the shape of their container due to weak intermolecular forces that allow them to flow. Examples include water and oil.
Yes. A liquid has a definite shape and when a liquid is poured into a container, the liquid takes on the shape of the container.
Liquid
You can determine the density of a liquid by measuring its mass and volume, then calculating the density using the formula density = mass/volume. The liquid with the highest density will sink to the bottom when layered with other liquids of different densities in a container.
There is no formula for this. You have to measure the volume.
The formula for calculating the volume of fluid to the fluid container in which it is located. For example. If the container is cylindrical. Area x height = volume of liquid
By putting it in a container and applying the formula of the shape the liquid makes in order to find its volume.
The liquid displacement formula is used to calculate the volume of an irregularly shaped object by measuring the volume of liquid it displaces when submerged in a container of liquid. The formula states that the volume of the object is equal to the difference in volume between the liquid level before and after submerging the object.
The volume of liquids is usually calculated by applying a formula to a rigid container, not to the liquid. For example, if you have a cylindrical beaker whose radius is r cm and the liquid fills it to a height of h cm, then the volume of the liquid in the beaker is the volume of a cylinder with radius r cm and height h cm - which is pi*r2*h cm3. Unfortunately, there is no single formula since any formula is dependent on the shape of the container. If you do not have a regular container, your main option is to use the formula Volume = Mass/Density.
Depending on the shape of the container for the liquid, you can find the volume different ways. If the container is a cube, the volume is (base * Width * height). if the container is a cylinder, the volume is (PI * Radius2 * height). The answer you would get from these equations is expressed in units cubed (example: cm3).
Liquid does not hold a specific shape on its own and takes the shape of its container due to its property of fluidity. It flows and fills its container without a set form.
If a liquid is not in a container it will evaporate.
If a liquid is not in a container it will evaporate.
If a liquid is not in a container it will evaporate.
The matter is in the liquid state when it takes the shape of its container but maintains a fixed volume. Liquids have defined volume but take the shape of their container due to weak intermolecular forces that allow them to flow. Examples include water and oil.
You would use a graduated cylinder to measure the volume of a liquid. Simply pour the liquid into the cylinder and read the volume at the meniscus, the bottom of the curved surface of the liquid.