To take away all energy would be impossible. E=mc2, which means that energy equals mass times the speed of light squared. Therefore no energy means no mass. It's impossbile to take away all energy becuase matter can not be created or destroyed.
It will get colder. Eventually, it might freeze.
It will freeze
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The force that holds water in the container is called centripetal force. It is not specific to water, it affect anything spun in a circle. The water has inertia, which means it wants to continue in the direction that its moving - if you were to let go, the water would fly forward in its current direction. And not only does your container keep the water from flying off, it also keeps changing the direction the water wants to go. If you spin the container fast enough, centripetal force can beat the force of gravity. Its as if the water is being endlessly thrown into the bottom of the container.
It will float if placed carefully enough.
Archimedes stated that any object set in water will experience a force of buoyancy equal to the weight of the water displaced.To determine the buoyancy force of an object, follow the procedure below. You will need:Two containersAn accurate scale1. Find a container as least as wide and as deep as the object in question, and then find a second container that is wide and deep enough to catch spilled water from the first container. For example, use a measuring cup as the small container, and a cake pan for the larger container.2. Weigh the larger container. Write down this measurement - you will need it in step 8.3. Rest the smaller container in the middle of the larger container.4. Fill the smaller container completely and exactly full with water, such that the smaller container cannot hold any more water without spilling over. Be certain not to spill any water into the larger container during this step.5. Gently place the object in question in the smaller container - do not drop it into the water. Allow it to immerse into the water gently so that it does not splash. As you place the object in the smaller container, water will spill over the top of the container, and will be captured by the larger container.6. After the object in question comes to rest in or on top of the water, remove the object, again being careful not to spill or splash any water over the edge of the smaller container while removing the object.7. Remove the smaller container from the larger container.8. Now weigh the larger container with the water in it, and subtract the weight you measured in step 2 from this weight. The difference in weight is the weight of the water alone..The buoyancy force is the weight of the water you calculated in step 8.
A solid block with a lower density than water will float in a container of water.
Nothing, rubber is unaffected at 212 degrees Fahrenheit. The worst thing that could happen is that the water in the bowl could boil violently after a while (not that it will blow the door off your microwave oven).
The object will dissolve in the container of water.
Water changes to a solid, ice, when heat is taken away from it. You can think of putting water into the freezer. Since the freezer is cold, heat flows out of the water making it become ice cubes.
Irregular objects can be volumetrically measured with three simple tools; a scale, a container large enough to contain the entire object, and enough water to fill the container. If you fill the container with water and weigh it, fully submerge the object in the water and remove it, compare the final mass of the container and water to the container full of water, the difference between the two in grams is the same as the volume of the object in cubic centimeters.
when cold and warm air are added in the same container it causes water.
If a pitcher of water is tilted too far, the water will spill out of the container.
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Yes, birch tress can be grown in a container. The birch must be small enough to fit the container, and it still should have plenty of sunlight and water.
Since water is transparent it does not absorb sunlight well, however, you could heat the container that the water is in (especially if it is an opaque container, not a glass container) and then the heated container would heat the water. A solar oven can easily produce enough heat to boil water. If you are not careful it might produce too much heat, and melt the pot.
A gardenia can survive in a large container. Just makes sure that it gets enough water and sunlight and should do fine.
if you have a closed bottle or can, etc. , of water and you heat it up to a high enough temperature, then pressure builds up, right? Well if the container is filled with water then the pressure will build up faster, causing the container to burst, but if the container is only filled maybe halfway, it will take a little longer for the pressure to build up enough to cause the container to burst.
The salt will dissolve in the water, and make the water salty. The sand won't be dissolved, and the sand will sink to the bottom of the container.
you will get dehydrated and will die