Two objects can depend on each other through a relationship or interaction that affects their behavior or properties. Dependencies can include sharing information, resources, or physical connection to achieve a common goal or function.
Acceleration depends on the force acting on an object and the object's mass. The greater the force applied to an object, or the lower the object's mass, the greater the acceleration experienced by the object.
The two things that work depend on are force and distance.
Weight depends on an object's mass and the acceleration due to gravity.
No, the work done on an object by a conservative force does not depend on the path taken by the object.
Acceleration depends on two factors: the force applied to an object and the mass of the object. A greater force or a lower mass will result in a higher acceleration.
KE = mv2 The mass and the squared velocity of the object.
newten force
Acceleration depends on the force acting on an object and the object's mass. The greater the force applied to an object, or the lower the object's mass, the greater the acceleration experienced by the object.
The two things that work depend on are force and distance.
Weight depends on an object's mass and the acceleration due to gravity.
It would depend on which two planets you are comparing.
The distance doesn't depend on the mass.
The gravitational forces associated with an object depend on the object's mass, but they don't depend at all on the substance the object is made of.
No, the work done on an object by a conservative force does not depend on the path taken by the object.
Acceleration depends on two factors: the force applied to an object and the mass of the object. A greater force or a lower mass will result in a higher acceleration.
Two types of energy that depend on the mass of an object are gravitational potential energy and kinetic energy. Gravitational potential energy is gained as an object is lifted against gravity, increasing with mass and height. Kinetic energy, on the other hand, depends on the mass of the object and its velocity.
Acceleration depends on the mass of the object being accelerated and the net force acting on the object.