Because the mass f the Earth is way greater then the apple's mass. Though apple attracts earth it is so negligible that it is equal to 0
The apple as too the Earth has mass. Both are attracted to each other. However, the mass of the Earth is soooo much greater than the apple that you do not see the attraction.
F = G(m1m2/r2)As you see both masses attract one another and are actually in accelerationtowards one another, but the mass of the earth is so much more than the applethat the acceleration of the earth towards the apple is quite negligible.==========================Addendum:The acceleration of the Earth toward the apple may be quite negligible, but the force is not.The important thing to be aware of ... which the question asks and the first answer skips by ...is that there are forces of attraction in both directions, and the forces are equal.The Earth is attracted to the apple with exactly the same amount of force as the onethat attracts the apple toward the Earth. Another way to say this is: Whatever yourweight is on Earth, the Earth has exactly that same weight on you.Added:The above is not quite correct as the force is almost all due to the mass of the earth and one can assume the radius is just approximately the radius from the center of the earth to the apple on the surface, or there about. The question does not need an equal and opposite attraction answer as the implication of gravitational acceleration is obvious. The apple is not pressing down on the earth, nor is the converse implied.
In a sense, it is falling toward earth, but its orbital velocity causes it to miss from moment to moment. The moon is in a stable orbit around the earth, and that is due in part to the gravitational pull between the earth and moon, and in part to the moon's own velocity as it travels in its orbit. If we could put some unimaginably powerful rockets on the moon that would push sideways (not down toward earth) in such a way that the moon's orbital velocity would slow a great deal, then the moon WOULD fall to earth, and it would cause more trouble than a falling apple.
Imagine a table cloth held on by each corner above the ground. This is the universe. Put an apple on it. This is a planet. The apple makes a dent. This is gravity. Put grapes on the cloth. These are smaller planets. They are drawn to the apple. Put a soccer ball on the cloth. This is a very large planet. Everything moves towards it. Gravity.
The apple has mass. The Earth has mass. The apple falls down, and the Earth "falls" up. The Earth's motion is not measurable. The apple's motion is.
The apple as too the Earth has mass. Both are attracted to each other. However, the mass of the Earth is soooo much greater than the apple that you do not see the attraction.
A rock that is dropped, and a apple falling from a tree.Hold a ball in your hand, stretch out your arm, and drop the ball. As it is moving towards the ground, it is in free fall.
A rock that is dropped, and a apple falling from a tree.Hold a ball in your hand, stretch out your arm, and drop the ball. As it is moving towards the ground, it is in free fall.
as an upgrade to the Apple II to appeal to the mass market instead of just geeks
Many of the new schools in Markham, Ontario are moving towards Apple iMacs, including my school. However, the majority of the schools have Dell PCs. Personally, I'd prefer the iMacs, but they are extremely expensive.
genyes
There is no real "hidden message" in the Apple song (if one is referring to the Apple, Inc. theme song). However, Apple songs (ads) have hidden meanings in them such as a hint towards a new product.
Yes you can.
F = G(m1m2/r2)As you see both masses attract one another and are actually in accelerationtowards one another, but the mass of the earth is so much more than the applethat the acceleration of the earth towards the apple is quite negligible.==========================Addendum:The acceleration of the Earth toward the apple may be quite negligible, but the force is not.The important thing to be aware of ... which the question asks and the first answer skips by ...is that there are forces of attraction in both directions, and the forces are equal.The Earth is attracted to the apple with exactly the same amount of force as the onethat attracts the apple toward the Earth. Another way to say this is: Whatever yourweight is on Earth, the Earth has exactly that same weight on you.Added:The above is not quite correct as the force is almost all due to the mass of the earth and one can assume the radius is just approximately the radius from the center of the earth to the apple on the surface, or there about. The question does not need an equal and opposite attraction answer as the implication of gravitational acceleration is obvious. The apple is not pressing down on the earth, nor is the converse implied.
No, it will add too much liquid to the recipe and not enough sweetness.
The apple falls on the earth because of gravity. It is the force that causes two particles to pull towards each other.
Apple's iPhone 3GS has a BOM (Bill of Material) cost of roughly $179. This does not include money that went towards R&D (Research and Development) of the product.