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Force and motion are not only a part of your everyday life, they are used throughout the day. Force is exerted every time you move. Motion is similar to force and is put to use every time a position or location is changed.
It can affect in the following ways:- Forward force that we apply to make a motion. Frictional force acts automatically even when we make slightest move. Gravitational force that keeps us from flying up in the sky.
A mechanism with a positive mechanical advantage is one in which the input force is greater than the output force. This is compensated for by the fact that the distance moved by the input is greater than the output so that in an ideal machine, the work input (Force*Distance) is the same as the work output. In real life, though, you always lose some energy - in the form of frictional heat, or sound.A negative mechanical advantage is the opposite. A small distance moved by the input is converted to a large distance moved by the output. But the force in the output is correspondingly reduced.A mechanism with a positive mechanical advantage is one in which the input force is greater than the output force. This is compensated for by the fact that the distance moved by the input is greater than the output so that in an ideal machine, the work input (Force*Distance) is the same as the work output. In real life, though, you always lose some energy - in the form of frictional heat, or sound.A negative mechanical advantage is the opposite. A small distance moved by the input is converted to a large distance moved by the output. But the force in the output is correspondingly reduced.A mechanism with a positive mechanical advantage is one in which the input force is greater than the output force. This is compensated for by the fact that the distance moved by the input is greater than the output so that in an ideal machine, the work input (Force*Distance) is the same as the work output. In real life, though, you always lose some energy - in the form of frictional heat, or sound.A negative mechanical advantage is the opposite. A small distance moved by the input is converted to a large distance moved by the output. But the force in the output is correspondingly reduced.A mechanism with a positive mechanical advantage is one in which the input force is greater than the output force. This is compensated for by the fact that the distance moved by the input is greater than the output so that in an ideal machine, the work input (Force*Distance) is the same as the work output. In real life, though, you always lose some energy - in the form of frictional heat, or sound.A negative mechanical advantage is the opposite. A small distance moved by the input is converted to a large distance moved by the output. But the force in the output is correspondingly reduced.
by doing nothing just sitting on your chair then having something to eat
most significant change in direction or circumstance in your life
Gravitational force attracts every massive particle to every other massive particle. It does so by altering the space between the objects, where each particle causes a small gravitational well. Frictional force is caused by the intermolecular attraction between two very close objects. The main difference between these two forces is their dependence on distance between the objects. Gravitational force is inversely proportional to the square of the distance, classifying it as a long distance force. Conversely, frictional force depends mostly on London Dispersion/ forces, which has a magnitude that is inversely proportional to the distance to the sixth power. This is more clear in the equations modeling these two interactions: FG=Gm1m2/r2 FL=k/r6 Where FG is the force of gravity and FL is the London force G is the gravitational constant (6.674x10-11N(m/kg)2) m1, m2 are the masses of the respective massive bodies r is the distance between the respective bodies k is a constant that depends on the polarizability and the ionization energies of the two bodies (in normal conditions other factors would have to be considered in this constant, but for an approximation this is sufficient). Frictional force, unlike gravitational force, can be changed by the application of an external force perpendicular to the direction of the frictional force. Frictional force experienced by an object is equal to the product of the coefficient of friction (influenced by FL, shown above) and the normal force. Therefore, by changing the normal force (defined at the contact force perpendicular to the surface on contact, it keeps the object from falling through the surface) the frictional force can be changed. An intuitive example is moving a couch: the frictional force is much greater when there is someone sitting on it, increasing the normal force.
bcos of the gravitational force of the phillipines !
Force and motion are not only a part of your everyday life, they are used throughout the day. Force is exerted every time you move. Motion is similar to force and is put to use every time a position or location is changed.
It can affect in the following ways:- Forward force that we apply to make a motion. Frictional force acts automatically even when we make slightest move. Gravitational force that keeps us from flying up in the sky.
Animism has thousands of different beliefs, because every type of Animism is different from every other kind! The basic belief of Animism is that there is a life-force inside every aspect of the natural world. Not only animals and plants, but even rocks, rivers and the stars, all contain this life-force, so everything is ultimately part of the same essence. This life-force is the Animist version of God. They don't believe in "gods" in the same way that, say, Hindus believe in multiple gods. However, the life-force in a particular tree or well might be prayed to or appeased as if it were a god.
A mechanism with a positive mechanical advantage is one in which the input force is greater than the output force. This is compensated for by the fact that the distance moved by the input is greater than the output so that in an ideal machine, the work input (Force*Distance) is the same as the work output. In real life, though, you always lose some energy - in the form of frictional heat, or sound.A negative mechanical advantage is the opposite. A small distance moved by the input is converted to a large distance moved by the output. But the force in the output is correspondingly reduced.A mechanism with a positive mechanical advantage is one in which the input force is greater than the output force. This is compensated for by the fact that the distance moved by the input is greater than the output so that in an ideal machine, the work input (Force*Distance) is the same as the work output. In real life, though, you always lose some energy - in the form of frictional heat, or sound.A negative mechanical advantage is the opposite. A small distance moved by the input is converted to a large distance moved by the output. But the force in the output is correspondingly reduced.A mechanism with a positive mechanical advantage is one in which the input force is greater than the output force. This is compensated for by the fact that the distance moved by the input is greater than the output so that in an ideal machine, the work input (Force*Distance) is the same as the work output. In real life, though, you always lose some energy - in the form of frictional heat, or sound.A negative mechanical advantage is the opposite. A small distance moved by the input is converted to a large distance moved by the output. But the force in the output is correspondingly reduced.A mechanism with a positive mechanical advantage is one in which the input force is greater than the output force. This is compensated for by the fact that the distance moved by the input is greater than the output so that in an ideal machine, the work input (Force*Distance) is the same as the work output. In real life, though, you always lose some energy - in the form of frictional heat, or sound.A negative mechanical advantage is the opposite. A small distance moved by the input is converted to a large distance moved by the output. But the force in the output is correspondingly reduced.
The proverb, every tree feels the force of the wind means that all things are subject to life's challenges. Just like wind blowing the trees, we to have to take life one step at a time and take what it hands us and still grow from it.
by doing nothing just sitting on your chair then having something to eat
Rites of passage are important to every culture because they are the significant events that mark changes and growth in a person's life.
This is life force, biologically, as well as spiritually.
In "The Veldt" by Ray Bradbury, the initiating force is the high-tech nursery that can create any realistic environment requested by the children, Peter and Wendy. The nursery becomes a significant force in the story as it takes on a life of its own and the children's obsession with it leads to a dark turn of events.
We are actually finding this gravitational force during the every moment in the life time. If we had no gravitational force, we must have been flying in the air. The 2 examples are:-When we throw a ball in the air air, it returns to the ground.When we shoot a ball in the net, falls down again.