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Objects large enough and close enough to see with the unaided eye are referred to as macroscopic, which is the opposite of microscopic.
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Describe objects that are large enough to see with the unaided eye?
Objects large enough and close enough to see with the unaided eye are referred to as macroscopic, which is the opposite of microscopic.
What objects experience large gravitational forces?
Large dense objects, and the closest objects.
How does gravitational force compare between objects that have small masses and objects that have large masses?
It will be larger between the large objects. This force is equal to the universal gravitational constant times the two masses of the objects, all divided by the square of the distance apart the objects are.
What branch of science studies objects in space?
<p>Astronomy or Astrophysics depending on which objects... large or small.<p>
Do small objects have more gravity than large objects?
No, gravity depends on mass, not size. Larger objects typically have more mass, and thus more gravity, compared to smaller objects. Gravity follows an inverse square law, so the distance between objects also plays a role in determining the force of gravity between them.
Describe objects that are large enough to see with the unaided eye?
Objects large enough and close enough to see with the unaided eye are referred to as macroscopic, which is the opposite of microscopic.
Are grains in coarse grained rock are microscopic?
No. They are large and visible to the unaided eye.
Are grains in coarse- grain rock microscopic?
No. They are large and visible to the unaided eye.
What term do geologists use to describe a mineral deposit large enough and pure enough to be mined for profit?
Economic deposit.
If all objects have gravity why arent you pulled toward a large bulding when you tand near it?
The gravitational pull between two objects depends on the mass of those objects and on their distance from one another. A large building isn't nearly large enough to create the gravitational pull to draw you towards it.
The mass of most objects around you does not cause a force large enough to move objects toward each other because?
the mass of the object is too small
Why does Newtonian mechanics work for objects with large masses?
Newtonian mechanics works for objects with large masses because the gravitational forces involved are strong enough to make relativistic effects negligible at everyday speeds and distances. Therefore, the classical equations of motion derived by Newton accurately describe the behavior of these massive objects. However, for objects with very high speeds or in strong gravitational fields, the predictions of classical mechanics may no longer hold true, and the effects of general relativity must be considered.
What objects experience large gravitational forces?
Large dense objects, and the closest objects.
What do you call the 6000 useless objects orbiting our planet?
They are called space junk, and there are about 20,000 now that are large enough to be tracked.
Can yeast be seen without a microscope?
In large amounts, yeast is visible to the unaided eye, but a single yeast plant is not.
Can static electricity make objects move?
Static electricity can create forces that cause objects to be attracted or repelled from one another, but it is not typically strong enough to directly move objects on its own. However, in some cases, if the build-up of static charge is large enough, it can cause lightweight objects to move or jump due to the electrical forces involved.
Where do you look for large objects?
In large places!
