To determine the mass of water inside the container, you would need to know the volume of the water and its density. The mass can be calculated using the formula: mass = volume x density.
To measure the mass of a container, place the empty container on a digital scale and record the reading. Then, add the items you want to measure inside the container and take the new reading. The difference between the two readings will give you the mass of the items in the container.
Measuring the mass of a solid involves using a balance scale to weigh the solid directly, while measuring the mass of a liquid typically involves using a container to hold the liquid and then weighing the container with the liquid inside. Liquids can take the shape of their container, so the mass of the container needs to be accounted for in the measurement.
Yes because if the container has a whole in it the air well make the water squezze out of the whole
Mass is a measure of the amount of matter in an object, while volume is a measure of the space an object occupies. The mass of water is determined by the amount of water molecules present, while the volume of water is determined by the container it occupies. In general, the mass of water will increase as more water molecules are added, while the volume will increase as the container size increases.
The water rises in the candle experiment because the heat from the candle causes the air inside the container to expand, pushing some of the air out. As the air cools down, it contracts, creating a lower pressure inside the container. This lower pressure causes the water to rise up into the container to equalize the pressure.
The answer depends on the shape and material of the container!
No, the water displaces the air if the container is open.
To measure the mass of a container, place the empty container on a digital scale and record the reading. Then, add the items you want to measure inside the container and take the new reading. The difference between the two readings will give you the mass of the items in the container.
It depends on the mass of the water.
Find the mass of an empty container using a balance. Fill the container with 100 ml of water and measure the mass again, The difference between the two measurements is the mass of 100 ml of water.
The object will dissolve in the container of water.
Water has a density of approx 1kg/l (or 1g/ml) so 1 litre has a mass of approx 1 kg. The total mass of the water and container will be the mass of the water plus the mass of the container. If it is a plastic container it will have negligible mass and so the total mass will be approx 1 kg.
The air in the container, as well as the food inside contains water or water vapor. As the temperature of the container as you put it into the fridge is hinger, the water in the food continues to evaporate, saturating the air in the container with water vapor. As the walls of the container cool down, the air inside the container comes into contact with the wall and is cooled to the point that the water vapor condensates. Eventually, the lid and the walls will have moisture on it.
Area of the container and the mass of the gas or liquid inside.
First measure the mass of a container. Then pour the liquid into the container and find the new mass. Subtract the mass of the container from the mass of the container and the liquid. Remember to consider the difference between mass a weight in your calculations.
It is easy to prepare distilled water at home. Simply fill a large pot with water and place a collection container inside the pot. As the water boils, the steam is collected inside the collection container. This collected steam is distilled water and it should be stored in a sterile container.
It is easy to prepare distilled water at home. Simply fill a large pot with water and place a collection container inside the pot. As the water boils, the steam is collected inside the collection container. This collected steam is distilled water and it should be stored in a sterile container.