Wiki User
∙ 14y ago4*6*8=192cm3 Since 1cm3 of water has a mass 1g this is 192g of water
Wiki User
∙ 14y agopour water into it until full, then pour that water into a measuring cup.
You can measure its dimensions, then calculate the volume from a formula for the specific shape of the container, or you could fill it up with water, then pour that water into a graduated cylinder or other calibrated measuring instrument. Or if you know the density of water in your room (it varies with temperature, and any contaminants in the water), then you could measure the mass of the container, then fill it up with water and measure the mass again. Subtract the mass of the container and then divide by the density to determine the volume. Density of pure water is approximately 1 gram/cm3.
Weigh it (weight of container including water) minus weight of empty container. A length (cm) is not a suitable unit for measuring a quantity of water without more information.
you need to drop your container (#1) into another larger container (#2) floating in a container of water (#3). Mark the water level in container #3 remove container #1 from #2. Fill container #3 back to the marked level measuring the number of litres used. Divide the number of litres used by a 1000 and you have the weight in metric tonnes
Put the object in a measuring container; pour in water to cover the object and measure the volume in the container; take the object out of container and measure the volume remaining. The difference is the volume of the object. If the object floats push it down until covered with water.
You would use a measuring cup or a graduated cylinder to measure the capacity of a container. Fill the container with water and then pour the water into the measuring cup or graduated cylinder to determine its volume.
You could use indirect measurement to find the mass of a large boulder by measuring the displacement of water when the boulder is submerged in a container of water. By measuring the volume of water displaced, you can calculate the mass of the boulder using the principle of buoyancy.
pour water into it until full, then pour that water into a measuring cup.
You can measure its dimensions, then calculate the volume from a formula for the specific shape of the container, or you could fill it up with water, then pour that water into a graduated cylinder or other calibrated measuring instrument. Or if you know the density of water in your room (it varies with temperature, and any contaminants in the water), then you could measure the mass of the container, then fill it up with water and measure the mass again. Subtract the mass of the container and then divide by the density to determine the volume. Density of pure water is approximately 1 gram/cm3.
Weigh it (weight of container including water) minus weight of empty container. A length (cm) is not a suitable unit for measuring a quantity of water without more information.
The answer depends on what the statue is made of. If it is made of clay, measuring its volume could be extremely difficult. If it is metal, you could immerse it into a giant graduated container of water. Mark the level of the water before and after the statue is immersed. The difference between the two is the volume of the statue - but only if either the statue is solid or that no water can get into it.
you need to drop your container (#1) into another larger container (#2) floating in a container of water (#3). Mark the water level in container #3 remove container #1 from #2. Fill container #3 back to the marked level measuring the number of litres used. Divide the number of litres used by a 1000 and you have the weight in metric tonnes
Put the object in a measuring container; pour in water to cover the object and measure the volume in the container; take the object out of container and measure the volume remaining. The difference is the volume of the object. If the object floats push it down until covered with water.
An Egyptian water clock, also known as a clepsydra, worked by measuring time based on the flow of water from one container to another. The water level in the container would gradually decrease, indicating the passage of time. By marking the container with divisions, the user could tell the time based on how much water had flowed.
In a container, easily.
Hydrogen gas (H2) is not very soluble in water, and so it will displace the water in the container, thus making the level rise.
You need to put it into a container or other measuring object and use the water displacement method. This means that you put water into the container and when the object is placed inside, you take the difference between the height of the water before and the height of the water afterward. This is the volume of the object.