Near the surface of the Earth, every kilogram has a weight of 9.8 Newton. (Weight is a type of force.)
The mass of the object is 50 kilogram. The acceleration due to gravity on earth is 9.8m/s2. So the force experienced by the object will be F=mass * acceleration =50*9.8 =490N
Slow running water in proximity to an electrically charged object (such as an inflated baloon with its surface filled with static electricity) will bend towards towards the object. The reason for this is that most water (if it is not de-ionized) contains positively and negatively charged ions. The ions with the same charge as the surface of the charged object will be pushed back into the faucet, leading to a buildup of ions with the opposite charge. Since opposite charges attract, the ions remaining in the water will be pulled towards the charged object, and the water will be pulled with the ions.
Gravity is the force of attraction between matter. When an object exerts gravitational force on another object, the other object also 'pulls' the first object. These force vectors are equal and opposite. In the example of a person being pulled towards a planet, the planet is also being pulled towards the person with the same force between them. The planet just has a lot more mass and accordingly accelerates a great deal less. There is no force "pulling up", but the strength of your legs are pushing up. (the equal and opposite force required for stability).
Ductile
Towards the Earth.
die
All objects on earth are pulled towards the center of the earth by gravity. The objects are pulled to the core(center of earth), but are not pulled through because of the normal force.
'Ductile". (Normally applied to substances, not objects.)
They aren't. They are pulled towards the center of the earth, as are all objects on the surface of the earth.
A force-meter measures the force of an object pulled along a surface.
Yes, as the bungee cord gets longer, the bounce height will become greater. The object attached to the bungee cord will fall longer before being snapped back up by the bungee cord, and in turn the object will bounce higher before being pulled back down by the bungee cord.
the object is constantly pulled towards the force of gravity (caused by a planet or a sun) but is travelling so fast that it never falls into the planet. thais is quite difficult to explain without a diagram. look up planetary orbits on google images