Of course, this is not true.
Always do real research, and don't believe everything you read on the web.
The greater the gravity, the greater the weight, even though the mass does not physically change. The stronger pull makes it heavier. The mass of something can never change - weight only describes the mass of something under the pull of gravity while mass is constant no matter where.
They better be! Electrical forces are much stronger than gravitational (for the same charged mass).
Gravity is the force that causes objects to attract each other. Its importance:- If there is no gravity then we will start to float because without gravity, which is property of every particle, earth will not pull us. It is due to gravity that all planets of our solar system revolve around the sun. Gravity is mainly responsible for the creation of universe and black holes.
No. There is no gravity 'insulator'. If you tried to build a wall between you and the Earth to block the Earth's gravity from reaching you, it would not only have no effect on the Earth's gravity reaching you, but the gravitational force on you would be even stronger, because you would also be attracted to the mass of the wall. Every two masses are gravitationally attracted toward each other, and that's all there is to it. It makes no difference what's in between them.
Every object in the world (and the universe which called Universal Gravity) is attracted to every other object by the force of gravity. That means the the desk and the book actually pull on each other. And the Earth pulls on both of them. The most important thing to consider is that the more massive an object is, the stronger its gravitational pull.That means that the Earth below the desk and the book pull on both these objects much more strongly than they pull on each other.The simple answer is that the Earth's gravity holds the book on the desk. But remember, the book is also pulling back on the Earth. They attract each other.
It depends on what area you are on each planet, =D
Can you see ten things around you? Each of them has gravity.
because gravity and inertia are kinda of playing a game of tug a war but both sides are equal so they do not move
The greater the gravity, the greater the weight, even though the mass does not physically change. The stronger pull makes it heavier. The mass of something can never change - weight only describes the mass of something under the pull of gravity while mass is constant no matter where.
Because the Earth and the moon are bound by the laws of gravity to revolve around each others common center of gravity.
The force of those objects' gravity and the gravity of the Sun pull on each other. The result is similar to whirling a ball tied to a string around and around yourself. The string is like the force of gravity.
The Earth goes around the Sun in a counter-clockwise path, or orbit. The Earth completes one orbit around the Sun each year.
Gravity. Every object exerts a gravitational pull on others. If two particles come into proximity in the near vacuum of space they will be attracted to each other, as they are free from the influence of stronger external forces.
Planets orbit the sun in a counter clockwise motion, due to the balance between the Sun's gravity and the gravity of each individual planet.
Quite simply, magnetism is stronger than gravity. In order to see a gravitational attractment you need a big difference in the force while magnetism all you need is opposite poles to attract each other. Imagine the difference between the whole earth and a small pebble. That's the difference you need in-order to achieve gravitational attractment.
They keep running away from each other.
The sun's gravity pulls the earth around it in an elliptical orbit