poles
When the buoyant force is greater than the force of gravity, an object will float or rise. This is because the buoyant force pushes upward on the object with a greater force than gravity pulling downward, resulting in a net upward force.
To keep a sled accelerating downhill, the force of gravity must be greater than the force of friction acting against the sled. This allows gravity to overcome the frictional force and propel the sled forward.
A product with a specific gravity greater than 1 will sink in water. This means the product is denser than water.
If the acceleration of a body is greater than the acceleration due to gravity, the body will start moving upward against the force of gravity. It may continue to accelerate if the net force acting on the body is greater than the force of gravity.
In a practical sense, gravity can be greater than friction in certain situations, such as when an object is sliding down a slope. However, in terms of mathematical comparison, gravity is a force of attraction between two objects with mass, while friction is a force that opposes motion. These two forces operate independently and cannot be directly compared in a quantitative way.
If the lift is greater than gravity then the airplane gains altitude.
Gravity of any body is directly proportional to its mass,since the mass of earth is greater than that of moon so earth has greater gravity.
The gravity on Earth is stronger than the gravity on Mercury.
may be the gravity of any matter is greater than it mass.
Earth is more massive than Mars and therefore has greater gravity.
Earth has a much greater mass than Pluto does, and therefore has stronger gravity.
If the specific gravity is greater than one it will sink.
It is estimated that the gravity on Neptune is 12% greater than Earth
Mars has approximately one third the surface gravity of the earth
Jupiter. It's gravity is 2.528 times greater than earths.
When the buoyant force is greater than the force of gravity, an object will float or rise. This is because the buoyant force pushes upward on the object with a greater force than gravity pulling downward, resulting in a net upward force.
To keep a sled accelerating downhill, the force of gravity must be greater than the force of friction acting against the sled. This allows gravity to overcome the frictional force and propel the sled forward.