Mass, inertia, and gravity are all related to the concept of gravity. Mass refers to the amount of matter in an object, which determines the strength of its gravitational pull. Inertia is the resistance of an object to changes in its state of motion, which is also influenced by mass. Gravity is the force of attraction between objects with mass, causing them to be pulled towards each other. An example of how these concepts are related is when an object with more mass has a greater gravitational pull, making it more difficult to move due to its inertia.
As per Law of Gravitation, there is no gravitational force on a massless object, so it will not accelerate. But mass-less object does not exist. It should have some mass and all objects fall down on earth with same acceleration irrespective of their mass(if air resistance is neglected).
Inertia is the tendency of an object to resist changes in its motion. For example, a heavy object is harder to push or stop because it has more inertia. Inertia also explains why objects in motion tend to stay in motion and objects at rest tend to stay at rest unless acted upon by an external force.
I need to clean house today, but I am being effected by inertia.
When a moving bus suddenly stops, passengers are thrown forward due to their inertia, which causes their bodies to continue moving forward at the same speed as the bus before it stopped. A heavy object, such as a bookshelf, is harder to push or pull because of its inertia – it resists changes in its state of rest or motion.
A stationary car remaining at rest until a force is applied to set it in motion because of its inertia. A spinning top continuing to rotate unless an external force stops it due to its rotational inertia. A book on a shelf staying in place until a pull or push is exerted on it because of its inertia of direction. A person moving forward when a bus suddenly stops due to their inertia of motion. A ball rolling down a hill maintaining its speed until friction slows it down because of its inertia of motion.
As per Law of Gravitation, there is no gravitational force on a massless object, so it will not accelerate. But mass-less object does not exist. It should have some mass and all objects fall down on earth with same acceleration irrespective of their mass(if air resistance is neglected).
Wind, Water, Glacier, Waves, Gravity.
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You are sweet as candy
Inertia is the tendency of an object to resist changes in its motion. For example, a heavy object is harder to push or stop because it has more inertia. Inertia also explains why objects in motion tend to stay in motion and objects at rest tend to stay at rest unless acted upon by an external force.
Memory
I need to clean house today, but I am being effected by inertia.
When a moving bus suddenly stops, passengers are thrown forward due to their inertia, which causes their bodies to continue moving forward at the same speed as the bus before it stopped. A heavy object, such as a bookshelf, is harder to push or pull because of its inertia – it resists changes in its state of rest or motion.
A stationary car remaining at rest until a force is applied to set it in motion because of its inertia. A spinning top continuing to rotate unless an external force stops it due to its rotational inertia. A book on a shelf staying in place until a pull or push is exerted on it because of its inertia of direction. A person moving forward when a bus suddenly stops due to their inertia of motion. A ball rolling down a hill maintaining its speed until friction slows it down because of its inertia of motion.
Give two examples of production and two examples of consumptions habits humans have related to material resouces.
Just one, gravity. It pulled it's mass together and gave it it's round chape. Oh, and the impact of the asteroids poc-marking it's surface, which also has something to do with gravity most of the time. Otherwise it's inertia I suppose, though it's an outdated idea in physics.
Black eyed peas, soybeans, and alfalfa are a few.