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The density of cutted pieces is identical; of course this is valid only for a homogeneous material.

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13y ago

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What affects how an object sink and float in water?

the density of the object


How does the density of a liquid affect the density and buoyancy of an object?

The density of a liquid affects the buoyancy of an object by determining whether the object will float or sink in that liquid. If the density of an object is greater than the density of the liquid, the object will sink. If the density of the object is less than the density of the liquid, the object will float.


How does the density affect bouyancy?

Density affects buoyancy by determining whether an object will sink or float in a fluid. An object with a density higher than the fluid it is immersed in will sink, while an object with lower density will float. This is because the buoyant force acting on an object is equal to the weight of the fluid displaced by the object, and density affects how much fluid is displaced.


How does the liquid density affects the buoyancy of ojects placed in liquid?

The density of the liquid determines the buoyant force acting on an object placed in it. If the object is denser than the liquid, it will sink. If the object is less dense than the liquid, it will float. The relationship between the density of the object and the density of the liquid affects how much of the object is submerged and the magnitude of the buoyant force.


What is the density on fluid of an object sinking?

The density of the fluid affects whether an object will sink or float. An object will sink in a fluid if its density is greater than the density of the fluid. If the object's density is less than the fluid's density, it will float.


What effect does size or shape have on the density of an object?

Size does not affect density, as density is a property that only depends on the mass and volume of an object. However, shape can impact density if the shape affects the volume of the object. A more compact shape will have a higher density compared to a more spread-out shape with the same mass.


How does the density of an object effect its gravitational pull on other objects example when a star's density increases its gravitational pull increases on other objects?

Mass, not density, and the closeness of objects, affects an object's gravitational pull. Density is not dependent on an object's size, but mass is. The more massive an object, and/or the closer an object is to another, the greater its gravitational pull.


How does the density of liquid affect the movement of an object?

The density of the liquid affects the buoyant force acting on the object immersed in it. If the object is less dense than the liquid, it will float. If the object is denser, it will sink. The denser the liquid, the greater the buoyant force acting on the object.


Does the mass of a coin affects it's density?

It can; density is the mass of an object divided by its volume. Increasing its mass could increase its density--it depends on what happens to the volume as well.


Does cutting an object in half change the density?

The density of something is the mass divided by the volume, so if you cut the item in half, it will not change the density at all. Instead, the two halves of the item will have the same density.


What effect does the density of liquid have on the buoyancy of an object?

An object with lower density than the liquid will float, one with more density will sink. Anything with the same density will stay at the depth where it is placed. If it is placed half submerged it would sink until submerged.


How do you think the liquid density affects the buoyancy of objects placed in a liquid?

The density of a liquid affects the buoyancy of objects placed in it according to Archimedes' principle. When an object is immersed in a liquid, the buoyant force acting on it is equal to the weight of the liquid displaced by the object. Therefore, if the liquid has a higher density, it can support more weight and provide greater buoyant force. Conversely, a less dense liquid will provide less buoyant force for the same volume of liquid displaced.