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Would the gravitational pull be higher if you lived in bubbles on the ocean floor and how might that effect us over time?
Since the phenomenon of Surface Tension acts on bubble and air is filled in it,
the bubble becomes lighter and hence rises up. Hence the gravitational pull is
less due to air. But gradually due to continuous action of water on the bubble,
it collapses. Hence in this case, the gravity pull becomes more than the previous case.
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Another contributor takes issue with ... well ... almost everything in the first answer.
I think the question is asking about the effect of living closer to the Earth's center,
rather than any effects of the bubble business.
The answer to that is: The gravitational force on an object becomes LESS as the
object descends below the Earth's surface. So, ignoring buoyancy and anything
else going on outside the bubble, you would weigh less on the ocean floor than
you do on the land surface. Over time, that would result in some weakening of
our whole muscular and skeletal system ... Either you use it, or you lose it.
What else can I help you with?
If the earth were placed five times farther from the sun how would the gravitational effect of the sun on the earth change?
The gravitational force would be 1/25 of the current value. Gravitational force is inversely proportional to the square of the distance.
Which object in our solour system has the biggest gravitational pull and why?
In our solar system it would be the sun. But there are much more massive objects beyond our solar sytem that would have a higher pull - the more massive an object is the higher its gravitational pull. a black hole has a huge gravitational pull, so strong that light cannot escape.
Which planet would an object weigh the most?
I believe that The planet which you would weigh most on would be Jupiter, as it is a much larger planet then earth its Gravitational force is much greater and it is also the largest planet in the solar system which would make it with the largest Gravitational force
Why would a rocket have to travel at a faster speed to escape Jupiter's gravitational pull?
To escape Jupiter's gravitational pull, a rocket would need to achieve escape velocity, which depends on the planet's mass and size. Jupiter's strong gravitational pull requires the rocket to reach a higher speed compared to escaping a smaller body like Earth. This increased speed allows the rocket to overcome Jupiter's gravitational force and not fall back onto the planet.
What would cause there to be oxygen in bubbles?
This is very vague. Oxygen bubbles would be produced by some kind of chemical reaction in which one of the results is oxygen. Do you have more specifics as to when/where these oxygen bubbles would be produced?
What would be the effect on satellites now in orbit if the earth were to stop rotating?
The rotation of either body has no effect on a pair that are in mutual gravitational orbit. It would have effect at all.
If the earth were placed five times farther from the sun how would the gravitational effect of the sun on the earth change?
The gravitational force would be 1/25 of the current value. Gravitational force is inversely proportional to the square of the distance.
If you took soda into zero gravity which way would the bubbles go?
In zero gravity, the bubbles in the soda would float around in random directions since there is no gravitational force pulling them in a specific direction. The bubbles would move freely within the liquid until they eventually reach the surface due to surface tension.
What are two gravitational bodies that effect tides?
In the case of Earth, that would mainly the the Moon, and the Sun (in that order).
What effect would decreasing the distance between two objects have on the gravitational attraction to each other?
the force will remain the p
If the mass of the star were doubled what effect would this have on the gravitational attraction between the star and its planet?
Doubling the mass of the star would increase the gravitational attraction between the star and its planet. The force of gravity is directly proportional to the product of their masses, so doubling the mass of the star would double the gravitational force between them.
What would happen to the atmospheric pressure at the ground if the earth's gravitational force were to increase?
If the Earth's gravitational force were to increase, the atmospheric pressure at the ground would also increase. This is because the increased gravitational force would cause more air molecules to be pulled towards the Earth's surface, resulting in higher atmospheric pressure.
Why would the person weigh less on top of the mountain than on the Earths surface?
A person weighs less on top of a mountain because the force of gravity is slightly weaker at higher elevations compared to the Earth's surface. This is due to the greater distance from the center of the Earth and the gravitational pull being slightly weaker at higher altitudes.
Which object in our solour system has the biggest gravitational pull and why?
In our solar system it would be the sun. But there are much more massive objects beyond our solar sytem that would have a higher pull - the more massive an object is the higher its gravitational pull. a black hole has a huge gravitational pull, so strong that light cannot escape.
What effect does earth's own gravitational pull have on a tossed ball?
Earth's gravitational pull causes the ball to fall back down to the ground after being tossed. The strength of the gravitational pull determines how quickly the ball falls and how high it can be thrown.
Is there a way to say bubbles angrily?
If one wants to say the word bubbles angrily, one would need to do so in an angry or mean tone. One would also probably raise one's voice for the full effect of anger.
What effect would increasing the mass of two object have on gravitational attraction between them?
Increasing the mass of two objects would increase the gravitational attraction between them. According to Newton's law of universal gravitation, the force of gravity between two objects is directly proportional to the product of their masses. Therefore, as the mass of the objects increases, the gravitational force between them also increases.
