The mutual gravitational force that attracts 1 kg of lead and the earth to each other
is 9.8 newtons (2.205 pounds).
If the pull of gravity between Earth and the moon was much less, it would result in weaker tides with lower highs and shallower lows in the ocean. This decrease in gravitational pull would lead to less water being pulled towards the moon, resulting in less noticeable oceanic movements.
Density is based off mass and volume, not weight and volume. Weight is a measurement of gravity, and changes based on strong the pull of gravity is in the area. Mass is a measurement of the amount of matter in an object, and does not change based on the pull of gravity. Density is Mass/Volume. Volume is a measure of how much space an object occupies. The more condensed matter is, the higher its density.
If there was gravity in space, objects would be pulled towards each other, affecting their motion and orbits. This could lead to different interactions between celestial bodies and potentially alter the dynamics of the universe as we know it.
Only partially. Meteoroids passing near Earth are affected by Earth's gravity, but they are traveling far faster than escape velocity, that gravity is usually insufficient to cause an impact. Rather, meteoroids strike Earth and its atmosphere when their trajectories around the sun intersect that of Earth such that they will pass through the same place at the same time. In the case of a near-miss, Earth's gravity will alter an asteroid's or meteoroid's orbit. In some cases this change can lead to a collision later on.
When gravity decreases, objects will weigh less and experience a reduction in gravitational force. This can lead to increased buoyancy in liquids, decreased friction between objects, and easier movement in low-gravity environments.
Yes, that's right. Except instead of calling it "the amount of gravity", it should really be "the force of gravity". In both cases, the force is 9.8 newtons, which is about the same as 2.2 pounds.
The object with the greatest force of gravity to the Earth at its surface would be a lead sphere. This is because the force of gravity is directly proportional to the mass of the object, and lead is a dense material, resulting in a larger force of gravity.
A reversal in Earth's gravity from positive to negative could have catastrophic consequences. It could lead to mass destruction of infrastructure, loss of life, and disruption of ecosystems. The change in gravity would affect everything on Earth, causing chaos and instability.
The amount of uranium on Earth has remained relatively constant over geologic time, as uranium is a naturally occurring element that is not created or destroyed in significant amounts. On the other hand, the amount of lead on Earth has increased over time due to the radioactive decay of uranium and other elements that eventually form lead isotopes as byproducts.
Weight is affected by gravity, but mass is not. weight is the pull of the gravity (probably from earth) then to get it you would combine mass or density, the gravity of the planet and the size or volume of what you are measuring However mass is just the amount of particles within an object, for example, if a lead block and a block of balsa wood, of the same size, were put on the scales then the lead would obviously weigh more, because it has a higher mas and therefore more particles and a higher weight : ) Hope that helps
One Pound, The Earth's gravity well is a constant.
If the pull of gravity between Earth and the moon was much less, it would result in weaker tides with lower highs and shallower lows in the ocean. This decrease in gravitational pull would lead to less water being pulled towards the moon, resulting in less noticeable oceanic movements.
Rephrase the question in English that makes sense.I think I have a usefull answer for you:As this is the Moon category: 1kg weight of lead on the Moon weighs roughly 6kg on earth Or one kg on Earth weighs 1/6 on the MoonThe cute thing is when they talk about mass as this term uses the same words as weight but means something different. the Mass of 1 kg of lead is 1 kg on the Moon and Earth
The amount of gravity an object has is directly proportional to its mass. If you had 2 planets the same diameter as the Earth, one made mostly of hydrogen, the other, most lead, the Lead Earth would have much more mass, and therefore more gravity than the Hydrogen Earth. Now real planets are a milieu of many elements & compounds. One would have to find the average density of each planet, Earth & Pluto; then find their size, then calculate their masses. Assuming that most things are equal (both planets are mostly made of rock), the Earth is larger, and thus has more mass than Pluto. So Pluto's gravitational acceleration is a lot less than 9.8m/sec/sec (Earth's acceleration).
If you are asking for a specific object then I am sorry I do not know. But I do know that any kind of mass (Cotton wool or lead) can be attracted by gravity to the center of the earth with a force of 94.3488 kg, if the object contains this amount of mass.
The attraction of the Earth for a kilogram of lead is equal in magnitude but opposite in direction to the attraction of kilogram of lead for the Earth, according to Newton's third law of motion. Both objects experience an equal gravitational force due to their masses.
Henry Cavendish determined the density of the Earth by measuring the gravitational attraction between two lead spheres in a laboratory setting. By carefully measuring the force of gravity between the spheres and using Newton's law of universal gravitation, he was able to calculate the Earth's mass and volume, leading to the determination of its density.