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Gas expands while water doesn't if you have 8oz of water in a 10oz container then pour it in a 16oz the water will stay 8 oz
Wiki User
∙ 11y ago
Wiki User
∙ 12y agoYes. Gases and liquids both exert a buoyant force.
Wiki User
∙ 8y agoYes. Without it, clouds and balloons would not float.
Wiki User
∙ 8y agoYes, according to the mass of the displaced air.
Wiki User
∙ 12y agoYes
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What properties do gases and liquids share?
they are fluid
How are science and superstition the same?
Science and superstition are both ways that mankind tries to explain the world, his place in it, and how to exert control over it. Other than that, there are no similarities.
In order to impart the greatest momentum to an object you should?
In order to impart the greatest momentum to an object, you should both exert the largest force possible upon the object in question and extend that force for as long as possible. This is so because the greater the force acting on an object results in a greater change in velocity, which in turn yields a greater momentum. In addition to exerting the largest force possible on an object, you should also extend that force over the longest period of time as possible, as the sustained force also produces more momentum. As p= m•v, the best method in obtaining the greatest amount for 'p' would be to manipulate either the 'm' or 'v' variables. Force= acceleration= change in velocity= MOMENTUM. Greater amount of time= MOMENTUM
How are gasses and liquids similar in shape and volume?
ANSWER unlike solids, both liquids and gases can change their shape to fit the container in which they are held. however, gases can also change volume unlike liquids.
Is the arm lever a distance multiplier or a force multiplier?
Well, i'd say its both. depends on the case to specify when it is a force multiplier or a distance multiplier.
Liquids and gases exert a buoyant force on object placed in them?
Yes, liquid and gases exert a buoyant force on object because of the surface tension of the fluid.
Liquids and gases exert a buoyant force?
Both liquid and gas
What is the relationship of buoyant force to gravity?
the relationship between buoyant force and gravity is that both definitions have to do with floatation . gravity and buoyant both keep you your object afloat so that it does not submerge
Suppose that you fall on a sidewalk while rollerblading Do you exert a force on the sidewalk Does the sidewalk exert a force on you Which of these forces may injure you?
Both, you exert a force onto the sidewalk, and the sidewalk "pushes back" with an equal, but opposite force.
What are the rules of buoyancy?
If the force of gravity is greater than the buoyant force, the object will sink. If the buoyant force is greater than the force of gravity, the object will rise. If the force of gravity equals the buoyant force (neutral buoyancy), the object will float.
How does the buoyant force that acts on a fish compare to the weight of the fish?
both forces are the same.
If you exert a force on an object in motion what will change?
If you exert a force on an object in motion you will change its velocity, velocity being a vector quantity of speed and direction.
Do The Earth and Moon both exert a gravitational force on each other?
Yes
How does the buoyant force of a fully submerged object compare with the weight of the water displaced?
The magnitude of both forces is the same.
Why do both the sun and the moon exert a greater gravitational force on one side of the earth than the other?
The gravitational force depends on the distance.
What will happen when you exert force on an object that is in motion?
Its speed, or direction, or both, change. That's called "acceleration".
In a stationary fluid is the buoyant force exerted equally in all directions?
No, the buoyant force comes from a pressure difference between the top and the bottom of the object. the deeper you go the larger the pressure gets, that means when you are under water there is more pressure pushing you up than down(more pressure at the bottom than top), making you feel liter. the buoyant force on the sides are both the same so they cancel each other out. also, the buoyant force is equal to the weight of the fluid displaced by the object.
