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.
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 force that attracts other objects toward the Earth is called Earth's gravitational pull. The average strength of Earth's gravity, known as standard gravity, is 9.80665 m/s2
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.
The huge mass and density of the earth have a pull in objects in space. It is still unsure if Earth's magnetic field has any effect on this attraction.
Yes. If the star is moving away from the Earth, its spectral lines will shift towards the red end of the spectrum. If it is moving towards the Earth, its spectral lines will shift towards the violet end of the spectrum. This is due to Doppler effect.
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
If something is moving, no force is required for that something to continue moving. That doesn't mean there are no forces acting on Earth; for example, the Sun attracts Earth towards it. But that's not what keeps the Earth moving.
In this case there are two action-reaction pairs. 1. Earth attracts the apple, the apple attracts Earth. 2. The apple pushes down on the table, the table pushes up against the apple.
The force that attracts a body towards the centre of the earth, or towards any other physical body having mass
because of earth gravitation or pulling
You are measuring the magnitude of the gravitational force that attracts your mass towards the center of the Earth, and the magnitude of the gravitational force that attracts the Earth towards you.
that is gravity
The force that attracts other objects toward the Earth is called Earth's gravitational pull. The average strength of Earth's gravity, known as standard gravity, is 9.80665 m/s2
The earth pull an 1 N apple with a force of 1 N towards the center of gravity of earth. The apple do not posses enough mass to pull the earth. (100g)
Sorry, Andromeda and earth are moving away from each other, not towards each other.
The earth's gravity is far stronger than that of the moon, so it overpowers it.
47km/h