Because Jupiter has a strong pull 20x more than earths say if you weigh 10 lb. multiply it by 20 you get 200 another example 20 x 10= 200 so really on Jupiter you are just twenty lb. more and the fast change can flatten you and if i am wrong sorry
The state of equilibrium of a coin lying on a flat table is stable. In this position, the forces acting on the coin, including gravity and the normal force from the table, are balanced, resulting in no net force or torque. If the coin is disturbed slightly, it will return to its original position due to the gravitational force acting downward at its center of mass. This stability arises from the coin's shape, which allows it to maintain its equilibrium on a flat surface.
Snow is heavy and as it piles up on a flat roof it gets heavier. Too much snow on a roof and it will cave in.
partcles heading towards one anther take on characteristics because going away from its origin causes partcles to resist that direction ,it cant go in its origin direction but in its opposite purging direction flat flaten out so how do you no which one you are you cant mirrors lie
Molars are wide and flat to provide a larger surface area for grinding and chewing food. The shape of molars helps in breaking down food into smaller particles, making it easier for digestion. Additionally, the flat surface of molars also helps distribute the force of chewing evenly across the tooth, preventing damage or fractures.
The majority of the members of the Flat Earth Society do not believe the Earth is flat. They are members because it's a counter-culture group which some people find interesting.Those who think the Earth is flat are usually motivated by religious literalism.
Yes. There's a force of gravity that pulls you and any other mass together, no matter what shape either of you is. However, a flat earth model would have far less gravity than a sphere, causing us to float into space.
pick them up by the waste and PUT ALOT OF FORCE AND SLAM THEM TO A FLAT SURFACE!! GUD LUCK
gravity pulls objects down and when a car is on the ground.but when it is on a ramp it moves and goes and goes and stops because gravity pulls is down to the ground and when it is on a flat area it moves a little but its like its on the ground cause of gravity.
When a flat sheet of paper falls to the floor, the main forces acting on it are gravity pulling it downward and air resistance pushing against it. Gravity is the force that pulls objects towards the Earth, while air resistance is the force that opposes the motion of the falling paper by pushing against it. These two forces work together to determine the speed and direction of the paper as it falls.
The force of gravity pulls the ball downhill, causing it to accelerate as it moves. As long as there is a slope for it to roll on, the ball will continue moving downhill until it reaches a flat surface or encounters a force that slows it down.
When force is applied to a flat surface, it can result in the surface deforming or breaking depending on the magnitude of the force. The surface may also experience frictional forces depending on the material and the amount of force applied.
It's not a question of "how many" but of "how strong". In order for an object to speed up or slow down... ∑F > µY Where ∑F = the summation of forces (add up all of the forces acting on an object, with opposite directions being opposite signs--ie, left is negative, right is positive for force strength) = "pulls" (+) added to your "pushes" (-) and µ = the coefficient of friction = the force retarding the movement of your object and Y = the component of the force with which gravity is pulling down on your object that is perpendicular to the plane on which it rests. IN OTHER WORDS, On a flat surface, an object will only move if, when you add up all of the "pulls" (positive numbers) with the "pushes" (negative numbers) you reach a number larger than the force of friction acting on the object from just sitting still. The force of friction is literally just a fraction of the object's weight, in the case of a flat surface (not on an incline.) For that reason, you can put a lot of pushes and a lot of pulls on a really heavy object before it moves. Additionally, if you push and pull with the same force, regardless the friction on the object, the object will not move, because the forces cancel each other out and friction becomes irrelevant. Helpful?
The normal force for an object on a flat surface is equal in magnitude and opposite in direction to the force of gravity acting on the object. It is responsible for balancing out the gravitational force to keep the object stationary or in equilibrium on the surface.
The effort force is applied at the handle of the shovel. The fulcrum is where your other hand goes, lower down the shaft, and the fulcrum resistance would be where the load goes on the shovel, I.E the flat bit that you hit people with!
Gravity!
There are various forces. Forces are of two types : Contact forces and Non-Contact forces.Contact forces:1.Muscular2.FrictionalNon-Contact forces:1.Gravitational2.Magnetic3.ElectrostaticAll these{and many other} pull object towards one another.Gravity
yes a scale reads a force. called the normal force which on a flat surface equals your mass times gravity