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.
As an object sinks in a fluid the buoyant force on it would remain the same.
They have to be the same.
If an object was less denser than water it would float
The object would float in the middle if it was in water.
Density is calculated as Mass / Volume. Therefore for an object that has a mass of 350 grams and a volume of 95 cm^3, the density would be 3.684 g/cm^3. Water has an estimated 1g/cm^3 density, therefore the density of this object is greater than that of water and would sink.
It would sink. The density of tap water is approximately 1g per ml. Anything with a greater density will sink.
Float - The density of water is 1.0, anything with a density less than this will float 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.
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That depends entirely on the volume of the object
The object would behave as a part of fluid and it will remain where it is kept.
It would sink. The density of water is 1g/mL. Anything with a greater density will sink.
As an object sinks in a fluid the buoyant force on it would remain the same.
Toothpicks float, because toothpick is light and small it is also wood. 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.
It isn't; both have the same mass regardless of the material surrounding them. Infact, the opposite appears true. The object suspended in water will seem lighter than the object suspended in air, because the density of water is greater than the density of air, which means objects will be more buoyant in water.If the statement in your question was true, everything would float in mid-air.
ANSWER:No. The mass will be halved but the density will remain the same. ___________________________________________________________The density will remain the same since the formula for density of an object is mass/volume. When you split and object, the mass is divided by 2, and the volume is divided by 2 (or whatever fraction you want to cut your item). If you would, compare mass/volume=mass divided by 2/volume divided by 2.
An object would float on a fluid if the density of the object was less than the density of the fluid.