That depends on the situation you are thinking about. For example, a gravitational force is greatest when the objects are closest together.
To impart the greatest momentum to an object, you would need to apply the greatest force over the longest time interval. This can be achieved by increasing both the force and the duration of contact between the object and the force. This would result in a greater change in the object's momentum.
The object with the smallest mass would have the greatest acceleration when pushed with a force of 8.2 N, as acceleration is inversely proportional to mass when force is constant.
The forces of gravity that attract the Earth and an object on its surface toward each other are greatest for the object with the greatest mass. Among the items on your list, that's probably the house.
The object with the greatest force of gravity to the Earth at its surface would be a lead sphere. This is because the force of gravity is directly proportional to the mass of the object, and lead is a dense material, resulting in a larger force of gravity.
The buoyant force of air is greatest when an object is fully submerged in the air. This is because the volume of air displaced by the object is at its maximum, creating the greatest upward force. The buoyant force decreases as the object is lifted out of the air, until it reaches a point where the object is no longer displacing enough air to experience a significant buoyant force.
The planet that has the greatest gravitational force is Jupiter.
airplane
A black hole has the greatest force of gravitational attraction. Even light rays can't escape.
To impart the greatest momentum to an object, you would need to apply the greatest force over the longest time interval. This can be achieved by increasing both the force and the duration of contact between the object and the force. This would result in a greater change in the object's momentum.
The object with the smallest mass would have the greatest acceleration when pushed with a force of 8.2 N, as acceleration is inversely proportional to mass when force is constant.
The same for all.
An observer would experience the greatest force due to Earth's gravity at its surface, which is closest to the center of the Earth and where the gravitational acceleration is strongest.
The forces of gravity that attract the Earth and an object on its surface toward each other are greatest for the object with the greatest mass. Among the items on your list, that's probably the house.
The bicycle would have the greatest impact force.
The object with the greatest force of gravity to the Earth at its surface would be a lead sphere. This is because the force of gravity is directly proportional to the mass of the object, and lead is a dense material, resulting in a larger force of gravity.
The buoyant force of air is greatest when an object is fully submerged in the air. This is because the volume of air displaced by the object is at its maximum, creating the greatest upward force. The buoyant force decreases as the object is lifted out of the air, until it reaches a point where the object is no longer displacing enough air to experience a significant buoyant force.
According to the Law of Universal Gravitation, objects with greater masses have the greatest gravitational force between them. So, typically large objects like planets, stars, or galaxies would exert the greatest gravitational force on each other.