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Gravity
One of the four fundamental interactions, gravity is responsible for the fact that any objects with mass attract one another. According to general relativity, it is a space time curvature, but according to quantum mechanics it is the result of exchanges of virtual gravitons.
4,784 Questions
Does the earth have more gravity then the sun?
The Sun and Earth exert equal but opposite forces on each other, obeying Newton's third law. However, if you're referring to another object being pulled by just the Sun or just the Earth, then it depends on the distance from them. If the distance in both situations are equal then the Sun pulls with a greater force due to having a larger mass.
What does mass and weight have to do with the law of gravity?
The mass of an object determines the strength of its gravitational pull, as described by Newton's law of universal gravitation. Weight, on the other hand, is the force of gravity acting on an object's mass. The greater the mass of an object, the greater the force of gravity pulling it towards another object with mass.
What day of the year does the earth have the least gravity?
As long as the Earth's mass doesn't change, neither does
its gravity, regardless of what day it is.
How does gravity affect the galaxy?
Gravity plays a crucial role in galaxy formation and evolution. It acts as the force that pulls gas and dust together to form stars and holds together the structures of galaxies. Gravity also influences the motion of stars and other celestial bodies within a galaxy, shaping its overall structure and dynamics.
Does Mercury have stronger or weaker gravity than Earth?
There less gravity on Mercury than on Earth.
Were else is gravity but earth?
Gravity is present throughout the universe, affecting all objects that have mass. It is a force that exists between all objects with mass, so gravity is not limited to Earth but can be found everywhere in space. Gravity keeps planets in orbit around stars, holds galaxies together, and influences the motion of all objects with mass.
How do you find gravitational acceleration?
One elegant way to measure the acceleration of gravity at the place where you are
is to measure it with a swinging pendulum. You must be able to measure the length
of the pendulum, and the time of its swings, very accurately, and you must enclose it
in some sort of a can or a box in order to keep air currents away from it.
When you've measured its length ( ' l ' ) and the time of its swing ( ' T ' ), the acceleration
of gravity ( ' g ' ) is
g = T2/(4π2l)Does the sun exerts gravity on other planets but does not exert gravity on earth?
No, the sun exerts gravitational force on all objects in the solar system, including planets and Earth. This force keeps the planets in orbit around the sun and also affects Earth's orbit and tides due to its gravitational pull.
Why is Isaasc newton discovery gravity important?
Isaac Newton did not discover gravity. Practically everybody already knew that
when you let go of something in your hand, it falls to the ground, and nobody
paid any attention to the few who didn't know it. What Isaac Newton did was
explain exactly how it works, with numbers. With that simple new knowledge,
it was possible to explain how and why the moon revolves around the Earth,
how the planets and comets revolve around the sun, and how to launch spacecraft
that can carry people to the moon, land cameras on Mars, sail probes out of the
solar system, and hang satellites up in the sky that can bring you 900 TV channels
that have nothing on.
Of course, if none of that is useful or interesting to you, then Newton's discovery
wasn't important.
What are 2 planets with a stronger gravitational pull than earth?
Jupiter and Saturn have stronger gravitational pulls than Earth due to their greater mass. This stronger gravity is responsible for their larger sizes and higher densities compared to Earth.
Will earths gravity act on different sized apples in the same way?
Every day, you see gravity acting on different sized people in the same way,
so it shouldn't be too hard to accept that apples have the same experience.
What is the ratio gravity of mercury?
The acceleration due to gravity on the surface of Mercury is about 3.7 m/s^2. This means that Mercury's gravity is approximately 0.38 times that of Earth's gravity, which is about 9.8 m/s^2.
Is there anywhere on earth without gravity?
Gravity is everywhere in the universe. There's no getting away from it, anywhere.
Who is the British scientist that discovered gravity?
Gravity was discovered not by a British scientist, but by the first living thing
that had a brain and fell down.
Sir Isaac Newton was the British genius thinker who captured the entire nature
and behavior of gravity in the formula
F = G M1M2/R2
What is the amount of gravity between an object and a planet?
The force of gravity between any two objects is
G x (mass of one object) x (mass of the other one)/(distance between them)2 If the masses and distance are in SI (metric) units, then G is 6.67 x 10-11 ,
and the force is in newtons. (about 4.45 newtons makes 1 pound.)
It doesn't make any different whether the two objects are a planet and an ant, a
planet and a star, two ping-pong balls, two people, or a galaxy and a feather.
That's the amount of gravitational force that's trying to pull them together.
Why doesn't Dark Energy effect things on a smaller scale then galaxies?
We don't know.
"Dark energy" and "dark matter" are more-or-less euphemisms for "we have no idea what the heck is going on here."
In the case of dark matter, the "here" has to do with the rotation of galaxies. If Newton's Law of Universal Gravitation is even approximately correct on a galactic scale, then galaxies don't rotate properly. We can fix this problem in one of two ways: we can assume there's a lot of mass that's hidden from us and only interacts via gravity (and, possibly, via the weak force, which turns out to only act over such tiny distances that we can completely ignore it for something the size of a galaxy ... or for that matter, the size of a grain of sand), or we can assume Newton's equations are just the small-scale limit, and that a different law applies for objects the size of galaxies. Both approaches have been tried; both are consistent with observed data, but neither has been absolutely proven correct.
In the case of dark energy, "here" has to do with the cosmological constant. When Einstein was attempting to work out his equations about how the universe behaves, he found it necessary to add an arbitrary parameter in order to get the equation to agree with observations. Actually, the model would have been consistent with what was then known about the universe if you assumed it was expanding. Einstein didn't like that for philosophical reasons, and put in the constant.
We now know the universe is expanding, whether we like it or not, but we also know more about how it's expanding, and it turns out that having a non-zero value for the cosmological constant makes the model work better. Scientists don't like inserting random parameters into equations without at least trying to explain where they come from, and "dark energy" is one attempt to explain the fact that the cosmological constant does not appear to be zero.
The reason it "doesn't affect things on a smaller scale than galaxies" ... according to theory, it does. It's just such a very, very tiny effect that on the small scale ... and by "small scale", I mean anything not mind-bogglingly huge, not just galaxy-sized or ever galaxy cluster sized but more like "the spacing between superclusters" sized ... then the effects are utterly indetectable against the background of gravity and electromagnetic forces.
Answer2:
Dark Energy does effect things smaller than galaxies!
Dark Energy effects things on every scale from Cosmos to atom. Dark Energy is involved in every spec of mass that moves, it is the product of Momentum and the speed of light, cP. Momentum is everywhere from the neutrino to the galaxies. Momentum energy, Dark Energy is everywhere there is Momentum.
Einstein's original conception was working on a stationary cosmos involving galaxies.. His mathematics did not show the stationary condition, so he added the Cosmological Constant. This was the correct idea. Einstein was looking for a centrifugal force to counter the centripetal force of gravity. Others assumed the equations were correct and the cosmos was dynamic either expanding OR contracting. The Big bang Theory and The red shift data was combined to conclude that the cosmos is expanding.
The more correct theory i call Quaternion Physics. The cosmos is not expanding and the Dark Energy is the source of the centrifugal force to bring about Stationary. The Dark Energy is the Momentum Energy, cP where P =mV, the Momentum vector. The Momentum is everywhere large and small sizes. The Dark Energy cP is also everywhere and large an small. It can be seen that Dark Energy cP = mvc is larger than "regular' energy mvv.
The centrifugal force comes from the Divergence of the vector energy
DEL.cP = -cp/r cos(P). The centripetal force is vp/r = mv2/r, the balance of these two forces give the Continuity Condition and the derivation of the red shift;
vp/r=cp/r cos(P) gives v/c = cos(P) the source of the red shift.
Thus the red shift is everywhere orbits are stable and indicate the Continuity Condition (the scalar forces summing to zero) and the Fermion Condition.
The Quaternion Physics answers the observations without ghost energy and matter. The Gravitational Energy is W= -mGm/r + cmV= -vh'/r + cP where the scalar/Boson energy is -mGM/r = -vh'/r and the vector/Fermion energy is cmV=cP the Momentum energy is the so-called "Dark Energy", Dark Energy is everywhere from the atom to the Cosmos; e.g. W = -vh'/r + cP where the electrons and Photons have the Momentum energy, cP.
*h'=h/2pi.
Why do bottle rockets have triangular wings instead of rectangular?
Triangular wings provide stability and control during flight due to their shape creating less drag. This design helps the bottle rocket maintain a straight trajectory and prevents it from spinning or veering off course. Additionally, the triangular shape allows for easier assembly and attachment to the rocket body.
Why do you notice the pull of earths gravity but not the pull of the suns gravity?
The center of the sun is very roughly 23,000 times as far from you as the center
of the Earth is.
That means that the gravitational force between you and each pellet of mass in
the sun is roughly
1/(23,000)2 = 1/(540 million) = 0.00000000185 as much as
the gravitational force between you and each pellet of mass in the Earth.
The sun has roughly 333,000 times as much mass as the Earth has. So the total
gravitational force between you and the sun is
333,000/(540 million) = 0.000617 as much as
the total gravitational force between you and the Earth.
Is mass and weight affected on the moon by gravity?
Yes, both mass and weight are affected by gravity on the moon. Mass remains the same because it is a measure of the amount of matter in an object, while weight changes because it depends on the gravitational force acting on an object. As gravity on the moon is weaker than on Earth, a person would weigh less on the moon compared to on Earth.
How did Robert Hooke find out about gravity?
Robert Hooke did not discover gravity. Gravity was famously discovered by Sir Isaac Newton, who developed the law of universal gravitation. Hooke did contribute to the understanding of forces and motion, but his work primarily focused on microscopy and biology.
Does the sun's rotation cause gravity?
The sun's rotation does not cause gravity. Gravity is a fundamental force of attraction between objects with mass, and it is always present regardless of whether an object is rotating or stationary. Rotation affects other aspects of a celestial body's behavior, such as its shape and magnetic field, but not the force of gravity itself.
Yes, space itself does not have gravity as it is a vacuum. However, massive objects like stars and planets create gravity due to their mass. This gravity causes objects to be attracted towards them in space.
Is it possible to place an object into a stable orbit that doesn't cross the equator?
I'm not sure what you mean by "a stable orbit". The Earth's center of mass ...
nominally the Earth's center ... always lies in the plane of any Earth orbit, so
the ground track of the orbit must either cross the equator or coincide with it.
Is there a point between the earth and the moon at which there is no gravity?
Yes, they are called Lagrange points. Between any two objects in space there are 2 points in between them at which the pull of gravity from both cancel each other out.
Does mass change depending a person's weight?
Mass is an intrinsic property of an object that remains the same regardless of the object's location or the gravitational force acting upon it. Weight, on the other hand, depends on the gravitational force and is determined by the mass of an object and the acceleration due to gravity. So, a person's mass does not change, but their weight can vary depending on the gravitational force.
