Your teacher has a sense of humor, or you misread the question....
And the answer is...
on his feet.
Since the force of gravity varies as the inverse square of the distance between bodies, the answer must be on his feet. It was the closest part of his body to the earth.
Likewise, his head had the least force exerted on it.
Jupiter
Gravitational force is experienced by each and every object in this universe.and the magnitude of this gravitational force is proportional to the mass of the object.Hence objects which possess greater mass experience greater gravitational force.the reason of existence of our solar system is the gravitational force experienced by the planets.
the earth of course.
It is a linear force towards two centers of gravity: you and the earth. While the earth exerts a strong gravitational pull on you, you exert a gravitational force upon the earth, although it a much lesser force since you have far less mass than the earth. To go even further, the magnitude of the sum of forces would be 9.81m/s2 plus your body's gravitational acceleration, whatever that number may be. So let's say that the gravitational force that you exert is 0.001 m/s2, then the total magnitude would be 9.82m/s2. This was answered with credible sourceOld Answer: It`s NOT your face ser.
Gravitational pull of the moon.
Jupiter. I mean it has the strongest gravitational field. It has the greatest magnetic field as well.
It is Jupiter.
The Earth exerts the greatest gravitational force on you because it is the most massive object you are closest to. The Earth exerts a force equal to your weight. The other objects exert gravitational forces but are not very noticeable because they are either low in mass or separated from you by great distance.
well if your obsessed with the water then yes but altherwise most likely not
Jupiter, because its gravitational force is the greatest.
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
At any given distance, the object with the greatest mass also has the greatest gravitational force. That's the Sun. The Sun also has the largest surface gravity.
This is technically not true. All forms of mass exert gravitational attraction on one another. However, since the Earth is billions of times more massive than most objects, the gravitational force of the Earth is commonly seen. The gravitational force between a stapler and a computer monitor is not large enough to make the two objects fly across a room to get to one another. However, both do exert a gravitational attraction on one another.
This is technically not true. All forms of mass exert gravitational attraction on one another. However, since the Earth is billions of times more massive than most objects, the gravitational force of the Earth is commonly seen. The gravitational force between a stapler and a computer monitor is not large enough to make the two objects fly across a room to get to one another. However, both do exert a gravitational attraction on one another.
This is technically not true. All forms of mass exert gravitational attraction on one another. However, since the Earth is billions of times more massive than most objects, the gravitational force of the Earth is commonly seen. The gravitational force between a stapler and a computer monitor is not large enough to make the two objects fly across a room to get to one another. However, both do exert a gravitational attraction on one another.
There are four fundamental forces in our universe that dictate how matter and energy interact. One of the forces, gravity, causes anything with mass, i.e. anything made of atoms, to attract other massive objects. Gravity is the weakest of the four forces and is one of the most difficult to explain.
The moon attained its shape the same way other planets were formed. Gravity compresses the planet into a shape that most evenly distributes the gravitational force among the planet's mass.
stability