If the bottle has a capacity of 100 cm3, you would expect to be able to fill it with 100 cm3 of water.
The volume of the water in Beaker X will be 100cm3, as you are not adding any more water to the equation (50X+100Y is not 150Y or X, but 50X+100Y) The total volume of matter in Beaker X will be 150cm3, and if the beaker is labelled, the volume measure will indicate 150cm3 due to the displacement of water. But as the answer to your question, the volume of water in Beaker X must be 100cm3 even though visual indicators will not show this due to the displacement of water by marbles
This depends on the nature of this solid, temperature, pressure, stirring, particles dimension etc.
A hot water bottle is also known as a hot water bag or a warming bottle.
The weight of the bottle with the water minus the mass of bottle gives the weight of the water present.Mass/Volume=Density,therefore weight of the water/density gives the volume of water present in the bottle which is nothing but the volume of the bottle itself.
Not all the solids will dissolve in water. Different solids have different solubilities (some will dissolve more than others). The higher temperature, the more will dissolve
What is the volume of 35.7g of sodium chloride in 100cm3 of cold water?
Water is better for the tornado bottle experiment because it creates the desired swirling effect when the bottle is spun rapidly. Vinegar may not form visible swirls as effectively as water due to its lower viscosity.
The bottle that contains only yeast and water. The experimental group in the bottle with yeast, water, AND sugar.
Are you referring to the Black and white bottle experiment? There are a few websites that talk about it with a Google search. If you are referring to the black bottle experiment where you pour "a lot" of water in and when you repeatedly pour the water, only "a little" water comes out...then sorry. Can't help you there. But if your teacher did the experiment with you, he/she probably won't tell you how it works, but he/she will be willing to talk to you about your ideas.
I could most certainly and I would expect to see a change in the level of water in the bottle as the temperature changed. Use a plastic drinks bottle and fill it up to the brim with hot water from the hot tap. Allow it to cool down and you should see the level fall so that the bottle is no longer full to the brim. Now put the bottle in a freezer for several hours and see what happens.
jug of hot water, balloon, bottle
The volume of the water in Beaker X will be 100cm3, as you are not adding any more water to the equation (50X+100Y is not 150Y or X, but 50X+100Y) The total volume of matter in Beaker X will be 150cm3, and if the beaker is labelled, the volume measure will indicate 150cm3 due to the displacement of water. But as the answer to your question, the volume of water in Beaker X must be 100cm3 even though visual indicators will not show this due to the displacement of water by marbles
Adjusting the water level in your water bottle can help improve your water bottle flip skills by finding the right balance between too much and too little water. Experiment with different water levels to see which one gives you the best flip.
bottle hitting u in the face when launching when it comes down hits u on the head
The variables in a blobs in a bottle experiment may include the type and amount of materials used to create the blobs, the size and shape of the bottle, the temperature of the water in the bottle, and the amount of time elapsed to observe the blobs forming and reacting. These variables can be manipulated to study how they affect the formation and movement of the blobs in the bottle.
To conduct a yeast balloon experiment, you will need a balloon, a water bottle, warm water, sugar, active dry yeast, and a funnel. First, mix the warm water with sugar in the bottle, add yeast using the funnel, and stretch the balloon over the top of the bottle. As the yeast consumes the sugar and produces carbon dioxide, the balloon will inflate.
Yes. Air moves into the top bottle to replace the volume of water that has flowed into the bottom.