The total amount of water would be 150 milliliters.
The volume reading on the measuring cylinder will increase due to the addition of the water. The meniscus, or the curve at the surface of the water, will form and the volume measured will be the amount of water that was poured in.
The density remain unchanged.
The correlation between the volume of water poured into a container and the amount of empty space left in the container is inversely proportional. As the volume of water increases, the empty space decreases, assuming the container is filled to its capacity. When the container is full, there is no empty space left. This relationship illustrates the principle of volume conservation within a defined space.
The shape of water changed to fit the shape of the container it was poured into due to its property of taking the shape of its container.
No, hot water poured into a cup is in liquid form, not a gas. At higher temperatures, water molecules move more quickly and can evaporate into steam, which is the gaseous form of water.
The volume reading on the measuring cylinder will increase due to the addition of the water. The meniscus, or the curve at the surface of the water, will form and the volume measured will be the amount of water that was poured in.
gravity pulls the water down when it is poured
Water and water
He got a glass and poured out a drink of water for himself.
The total amount of water in the beaker was 0.5 liters (500 milliliters) + 300 milliliters = 800 milliliters.
The density remain unchanged.
Anything toxic can cause ground water contamination if poured on the ground.
The pump in the dishwasher should keep the water from getting into it.
In a small amount (a few ounces), probably not. A larger amount may effect water pump seals.
The water in the beaker evaporated or was poured out.
Yes, water takes up space because it has mass and volume. When water is poured into a container, it displaces the air or other substances in that container, showing that it occupies a certain amount of space.
Water gurgles when poured into a container because of air bubbles getting trapped and released as the water flows in, creating a bubbling or gurgling sound.