1 liter of water weight about 1 kilo. (The exact weight depends on the pressure and temperature). Therefore the container above holds 3.2 liters.
To determine the volume of the container in liters, you would need to use the density of water, which is approximately 1 kg/L. Since the container holds 3.20 kg of water, the volume of the container would be 3.20 L.
Basically 1Litre=1KG. So 3Litre=3KG!
Examples of liquid products sold by volume include beverages like water, juice, and soda, as well as household items like shampoo, cleaning solutions, and cooking oils. These products are typically measured and priced based on the volume of liquid in the container, such as in ounces, milliliters, or liters.
Lake Chelan holds approximately 5 trillion gallons of water.
3 liters of water or any other substance with the same density of water.
That depends on the amount of water, the temperature, the shape of the container that holds the water.
To find the volume of a stone using water displacement, you would fill a container with a known volume of water, record the initial water level, then submerge the stone in the water and measure the new water level. The volume of the stone is equal to the difference in water levels before and after submerging the stone.
670 ml
Assuming the container is full at 1500 liters, the container's volume in cubic feet will be about 53 cubic feet (52.9720005, more precisely).
A container with a volume of at least 24.06 cubic feet.
4.2 litres = 0.0042 kilolitres.
A container with a volume of 14.44 cubic feet will hold 108 gallons of water.
A container that holds water.
14
The volume of a pail can vary depending on its size and shape. It is typically measured in liters or gallons. You can determine the volume of a pail by filling it with water and pouring the water into a measuring container to get an accurate measurement.
Liters is a measurement of volume. 160 Liters is the volume.
Here's how to proceed:Fill container B with 3 liters.Pour the 3 liters from container B into container A.Fill container B again with 3 liters.Carefully pour from container B into container A, until container A is full.Container A already had 3 liters, so it only takes 2 more liters to fill it to 5 liters, leaving 1 liter remaining in container B.
An easy and low tech way to find the volume of an object is to measure the volume of water it displaces. Fill a container that has lines for measuring volume on it with enough water to fully submerge the object whose volume you will measure, but don't fill it all the way to the top. Write down the amount of water you start with, let's say 1 liter. Now put the object you want to measure into the water carefully so that you don't splash any water out and make sure that it is fully submerged. Now write down the new volume of water in the container, let's say it now reads 2.5 liters. Subtract the original volume from the new volume to find the volume of your object: 2.5L - 1L = 1.5 liters. Another way to find the volume of an object fill a container with water to the very top of the container. Place that container of water into an empty larger container. Put the object that you want to measure into the container of water slowly so that you don't spill any more water than the object pushes out on its own. When the object is fully submerged, it should have pushed out some water into the larger container. To ensure accuracy, the level of water in the water filled container that now also contains the object to be measured should still be at the very top of the container. Carefully remove the water/object filled container from the larger container so as to not spill any more water. Carefully pour the overflowed water into a smaller measuring vessel to find the volume of your object.
The easy way: Pour the water into a graduated container, like a graduated cylinder, and read the volume directly. The hard way: Calculate the volume of a regularly shaped container (cylindrical or rectangular). Pour the water into the container. Measure the height of the water in the container. Calculate the volume of the unfilled portion of the container. Subtract this volume from the total volume of the container.