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Would an object with a density of 1.0g per ml float sink or remain suspended in water?
An object of 1.0 g per ml will remain suspended in water because the density of water is 1.0 anything below 1.0 will float and anything above 1.0 will sink. There fore, 1.0 will remain suspended because that is the buoyant point.
If the density of an object is 1 then will that object sink or float?
If the density of an object is 1, it will neither sink nor float in water. When the density of an object is equal to the density of the fluid it is placed in, it will be neutrally buoyant and will remain suspended in the fluid at the same level.
Would an object with a density of 0.85g per ml float sink or remain suspended in tap water?
Float - The density of water is 1.0, anything with a density less than this will float in water.
In order for an object to have neutral buoyancy what would the relationship between the density of the object and the density of the fluid have to be?
For an object to have neutral buoyancy, its density must be equal to the density of the fluid it is immersed in. This means that the weight of the fluid displaced by the object is equal to the weight of the object itself, resulting in no net force acting on the object, allowing it to remain suspended in the fluid.
Why does a penny sink in water?
water has a density of 1. For something to float, the density of the object would have to be under 1, and to sink, it must be over 1. If it is exactly 1, then the object will remain suspended in the water. A penny has a density of over 1, so it sinks in water.
Would an object with a density of 85gmL float sink or be suspended?
you should know
Would a 0.85g object float sink or remain suspended in tap water?
That depends entirely on the volume of the object
What happen when an object whose density is equal to the density of water is dropped in water?
When an object with the same density as water is dropped in water, it will remain suspended at the same height at which it was released. This is because the object's weight is equal to the buoyant force acting on it, keeping it in equilibrium. The object will neither sink nor float, but will simply remain in place in the water.
What would happen if an object is immersed in a fluid and the object and the fluid had the same density?
The object would behave as a part of fluid and it will remain where it is kept.
Would 1.4 g-mL float sink or remain suspended in tap water?
It would sink. The density of water is 1g/mL. Anything with a greater density will sink.
What is an object that is equivalent to the density of water?
An object that is equivalent to the density of water is an object that has a density of 1 gram per cubic centimeter. This means that the object will have the same mass per unit volume as water. Therefore, if you were to place this object in water, it would neither sink nor float, but would stay suspended in the water.
Would an object have the same mass density on the moon as it does on earth?
No, the mass density of an object would not be the same on the moon as on Earth. The mass of the object would remain the same, but since the gravitational pull on the moon is weaker than that on Earth, the volume of the object would decrease on the moon, resulting in a different mass density calculation compared to Earth.
