Depends on how dense it was;
If it was normal matter, then it and the Earth would merge (messily) as a larger planet.
If it were compressed matter it would probably explode.
If it were a black hole it would fall into the Earth, orbiting it center of the planet,
and (slowly) eating the Earth until the planet collapsed into itself.
Because evaporation happens at the surface.
it can be found by first taking the volume of the water itself and then the volume of the object in the water. you pour water into the 12-sided object, then measure the amount of water using the graduated cylinder. Then you do this: length x width x height = volume
No. A milliliter is 10 times smaller than a centiliter.
it can be found by first taking the volume of the water itself and then the volume of the object in the water. you pour water into the 12-sided object, then measure the amount of water using the graduated cylinder. Then you do this: length x width x height = volume
Yes under constant pressure, with a given mass, volume changes during the change of state. When steam condenses, its volume is reduced. But, when water changes into ice, its volume becomes more. This is known to be anomalous expansion of water. Where as in other cases, when the liquid form gets changed into solid form, the volume is reduced.
The evidence that will show an object as having a bigger volume is the mathematical solutions to their volume.
volume is how much space is in an object (an object with more volume would be bigger) weight is how heavy an object feels due to gravity (an object with more weight would be harder to lift) density is how much matter is in an amount of space (an object with more density would weigh as much as an object with less density but in a smaller space/volume)
Smaller objects tend to have more density than larger objects because their mass is concentrated in a smaller volume, making their particles more tightly packed together. In contrast, larger objects have their mass distributed over a larger volume, leading to lower density.
Displacement is equal to the volume of fluid displaced by an object. The displacement of an object in a fluid depends on the volume of the object itself, not the volume of the fluid.
To find which object has a bigger volume, you may be required to use formula to calculate their volumes.
It can be.
No, an object's volume remains the same when it is cut in half. The volume of an object is determined by its dimensions and does not change when it is divided into smaller pieces.
The volume of water an object displaces is equal to the volume of the object itself, as stated by Archimedes' principle. This principle explains that the volume of fluid displaced by an object immersed in a fluid is equal to the volume of the object.
No, it is not necessarily true that larger things have smaller volume compared to smaller things. The volume of an object is determined by its dimensions and can vary depending on the shape and size of the object. Larger things can have larger volumes than smaller things if their dimensions are proportionally larger.
Earth's volume is 17.8 times the volume of Mercury.
You can find the volume of an object bigger than the graduated cylinder by using the displacement method using a beaker. The object also can be measured with a rules length, width, and height.
The volume of water displaced by an object when submerged in a fluid is equal to the volume of the object itself, according to Archimedes' principle. This principle states that the buoyant force acting on an object is equal to the weight of the fluid that the object displaces.