You can achieve this by altering the bottle's weight distribution. You can fill the bottle partially with water so that it floats, then add a heavy object to make it sink, and finally remove the heavy object to make it float again. This experiment demonstrates how weight affects buoyancy.
A bottle sinks in water because the density of the bottle is greater than the density of water. This means that the bottle displaces less water than its own weight, causing it to sink rather than float.
A fork will sink in water, as it is denser than water. The density of an object determines whether it will sink or float in water.
I have a marker which float in water.
Aluminum powder will sink in water because it is denser than water.
put water in to let it sink... then put air into it to let it float...
You can achieve this by altering the bottle's weight distribution. You can fill the bottle partially with water so that it floats, then add a heavy object to make it sink, and finally remove the heavy object to make it float again. This experiment demonstrates how weight affects buoyancy.
A bottle sinks in water because the density of the bottle is greater than the density of water. This means that the bottle displaces less water than its own weight, causing it to sink rather than float.
it will float as long as it is not fully covered water.
Arsenic is denser than water, so it will sink in pure water.
A fork will sink in water, as it is denser than water. The density of an object determines whether it will sink or float in water.
Asphalt is denser than water and will sink in water rather than float.
float
Float.
I have a marker which float in water.
a solid ceramic object would sink. however, if the object is displacing enough water proportional to it's weight, then it will float. If you put an empty glass bowl in the water, it will float; but if you allow water in, it will sink. This applies to ceramics.
i think it is ppeople because they float in salt water and sink in fresh water.