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If they are relatively near so that the curvature of the earth has negligible effect.
Get warmer.
That depends on your latitude. Near the equator, the days will hardly get longer or shorter; the nearer you get to the poles, the greater the difference will be.That depends on your latitude. Near the equator, the days will hardly get longer or shorter; the nearer you get to the poles, the greater the difference will be.That depends on your latitude. Near the equator, the days will hardly get longer or shorter; the nearer you get to the poles, the greater the difference will be.That depends on your latitude. Near the equator, the days will hardly get longer or shorter; the nearer you get to the poles, the greater the difference will be.
Yes, on average, that is true, a smash from the backcourt will usually have less downward angle than a smash near the net.
an example of a near perfect number is 2, 4 or 16.-these are near-perfect numbers because their factors add up to one less than the number itself.
a slight curvature of the spine near the neck
Yes because its curvature. Sunlight spreads over different areas causing it to be less effective near the poles.
Yes because its curvature. Sunlight spreads over different areas causing it to be less effective near the poles.
Light from a single point of a distant object and light from a single point of a near object being brought to a focus by changing the curvature of the lens. The lens is a transparent, biconvex structure in the eye that, along with the cornea, helps to refract light to be focused on the retina.
An object with less mass will have a greater speed when the same amount of energy is expended into it. Thus, a baseball will be going much faster than a softball at the time it is thrown. For the same angle of launch, an object will go further when it has a higher velocity (a fairly trivial and simple fact). Additionally, an object with greater surface area is slowed much quicker than one with less surface area. The baseball experiences less drag at the same speed than the softabll; while it is travelling faster and experiences greater drag as a result, it will also go further before being remotely near to the speed of the softball.
It hasn't. The acceleration of gravity on or near the surface of Venusis about 91% of what it is on or near the surface of the Earth.(That's less than what it is here.)
because for attraction mass of one object should be greater than other
As long as the object stays somewhere near the surface of the earth, the acceleration due to gravity is constant, whether the object is moving up, down, sideways, or not moving at all.
No planet has anywhere near the mass that the sun does, and the strength of gravity in an object is proportional to its mass.
The closer you are to the poles, the greater the change.
If they are relatively near so that the curvature of the earth has negligible effect.
In the same way that a diagonal line through the equals symbol changes equals (=) to does not equal (≠), a near-vertical line through the greater than symbol (>), changes it to not greater than. Unfortunately I cannot find it in my symbols set. One alternative, of course, is to change the equation around: x not greater than y is the same as x less than or equal to (≤) y. When inverting the equation in this fashion, you do need to remember to add = if it was not there and remove it if it was. ie not (greater than) is the same as less than or equal to not (greater than or equal to) is the same as less than not (less than) is the same as greater than or equal to not (less than or equal to) is the same as greater than