it gets wet
An eraser sinks because it is denser than water. The density of an object determines whether it will float or sink in water. In the case of an eraser, its density is greater than that of water, so it sinks.
An eraser typically sinks in water due to its density being higher than that of water.
An eraser floats because it is less dense than water. The air trapped inside the eraser adds buoyancy, allowing it to float on the surface of the water.
An eraser would typically float in water because it is less dense than water. The air pockets within the eraser make it buoyant enough to stay on the surface rather than sink.
Rubbing an eraser on a woolen sweater can create friction that generates static electricity, causing the eraser to cling to the sweater. This effect is due to the transfer of electrons between the eraser and the sweater, leading to opposite charges attracting each other.
An eraser sinks because it is denser than water. The density of an object determines whether it will float or sink in water. In the case of an eraser, its density is greater than that of water, so it sinks.
An eraser typically sinks in water due to its density being higher than that of water.
An eraser floats because it is less dense than water. The air trapped inside the eraser adds buoyancy, allowing it to float on the surface of the water.
yes
An eraser would typically float in water because it is less dense than water. The air pockets within the eraser make it buoyant enough to stay on the surface rather than sink.
Rubbing an eraser on a woolen sweater can create friction that generates static electricity, causing the eraser to cling to the sweater. This effect is due to the transfer of electrons between the eraser and the sweater, leading to opposite charges attracting each other.
To determine the density of a rubber eraser, you would first measure the mass of the eraser using a scale. Next, measure the volume of the eraser by submerging it in a graduated cylinder filled with water and recording the water displacement. Finally, divide the mass of the eraser by its volume to calculate the density.
To clean an eraser effectively, gently rub it with a soft cloth or use a white eraser to remove any dirt or debris. Avoid using water or harsh chemicals, as they can damage the eraser. Store the eraser in a clean, dry place when not in use to keep it in good condition.
To effectively use the Mr. Clean Magic Eraser to clean tough stains and grime, wet the eraser with water, squeeze out excess water, and gently scrub the stained or grimy area. The micro-scrubbers in the eraser help to lift and remove the dirt. Rinse the area with water after cleaning.
An eraser removes pencil marks by creating friction between the eraser material and the paper. This friction generates heat, which helps to break down and lift the graphite particles from the paper surface, effectively "erasing" the pencil marks.
Oh, dude, the relative density of a rubber eraser is basically how much denser it is compared to water. So, if you drop a rubber eraser in water and it sinks, it's denser than water. If it floats, it's less dense. It's like a little science party in your pencil case, man.
In the left side menu is a icon shaped like an eraser. This in effect wipes any graphic or line when you select and the pass the tool over an area (a form of deletion tool)