They have, only that gravitational pull is hugely dependent of weight, and everyday items aren't heavy enough to have any noticeable pull.
Because the objects are tiny compared with the Earth, the comparative gravitational force is very small.
well we dont really know. i guess there is somethings we may never know
The force pulling objects back towards the Earth is gravity.
i dont now
gravitational energy
ordinary water ordinary water ordinary water
They are bound to the sun in closed orbits by mutual gravitational attraction. Those that had too much kinetic energy to be captured and gravitationally bound to the sun, weren't, and they're gone.
Well mass is the size of an object and if you have a large mass then you are heavy and if you have a smaller mass then yu are light. Mass affects the objects gravitational pull because if you have lrg mass then you weigh more cus of your size. and if you are small you can slip through air faster and if your mass is lrgr then you can sometimes be slower then the smaller mass. Ex. mice are fast and glide across the floor while elephants are large and dont get to places very fast bcus of there weit.
You always have your own gravitational pull, but it's not big enough to really do anything on Earth. Being overweight wouldn't help either- Earth's gravity is far too great and yours would be far too small. Sources: Got fat trying to make my belly a tractor beam. 120 pounds later, a huge disappointment.
What i dont get it why they dont attack the customers AND SUCK IT UP
i dont really know the peak objects
The gravitational force is a very weak one. Actually we only feel earth's gravitational field because the earth's mass is huge. So is the gravitational field of stars and astronomical bodies. But since the objects we usually deal with have really small masses, it's gravitational force is so weak that it gets surpassed by many other forms of force (like friction, for instance). So if you could have a situation where no other forces were involved and you had an equipment precise enough to measure the force you would be able detect the usual object's gravitational force.AnswerIf you think about it, objects indeed stick together as a result of gravity. The planets formed (or so we theorize) by the "accretion" of materials floating around the young sun in the very early period of the solar system. At first bits of dust, rock and gas just floated and crashed together, but physical objects of any size have at least some gravity. The larger chunks of rubble attracted one another, and stayed together, giving the now larger object more gravity. And on and on it went until-- Big Ben!Objects that end up not sticking together are in stable enough orbits not to attract each other to the point of collision. But collisions still do occur, as proven dramatically by the comet collision on Jupiter actually witnessed just a few years ago.ANOTHER ANSWERThey do. Proportionally to mass. Just try to lift that 1 ton block of concrete by hand!!