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Inertia has nothing to do with velocity, it has to do with mass, and the greater the mass, the greater the inertia.
Newton's first law states that an object has a property that maintains its original state of uniform linear motion or rest, and we call this property inertia.
Any object has inertia in any state, i.e., inertia is a property of an object.
The physical quantity that describes the inertia of objects is their [mass].The greater the mass of the object, the greater the inertia, and vice versa.
You think too much, don't worry about the muzzle velocity or something, remember: the greater the mass of the object, the greater the inertia, and that's it.
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Inertia is a property of the object itself, a property that remains the same, and it doesn't matter if you're at rest or in motion, no matter how fast you move.
The difference in initial velocity only means that its initial state is different, but its property (inertia) that keeps this state unchanged does not change, so it can be said that inertia and velocity are not related.
How did the initial velocity come about? -- This initial velocity of the object (this state) may be changed by other velocities (the original state), but it must be subjected to a force, (it does not want to change, it wants to maintain the original state, this is inertia), not because of inertia
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Well, that velocity is inherently present, and inertia is only related to the mass of the object.
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Inertia has nothing to do with speed, please.
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Inertia and momentum are easily confused.
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The property of an object to remain at rest or in a state of uniform linear motion is known as inertia. Inertia is an intrinsic property of an object, which is manifested as a degree of resistance of an object to a change in its state of motion, and mass is a measure of the magnitude of an object's inertia.
When the external force acting on the object is zero, the inertia is manifested as the object keeping its state of motion unchanged, that is, keeping it at rest or moving in a straight line at a uniform speed; When the external force acting on the object is not zero, inertia is expressed as the degree of difficulty with which the external force changes the state of motion of the object. Under the action of the same external force, the object with less acceleration has greater inertia, and the object with greater acceleration has less inertia.
Therefore, the inertia of an object will not change at any time (with or without external force) and under any circumstances (rest or motion), let alone disappear.
From the definition of inertia, it can be seen that inertia is the property of an object to maintain its original state of motion. And we know that one of the two effects of force is to change the state of motion of the object. Then when we change the motion state of an object with a fixed force of a fixed magnitude, we find that no matter how large the velocity of the object is, when this force is applied, the velocity change of the object is the same (i.e., the amount of velocity change of the object per unit time is constant), which shows that the effect of the force is independent of the motion speed of the object.
When we experiment with another object with a different mass, we find that the effect of this force on the velocity of the second object is different from that of the first, and the effect of the force on the second object remains constant no matter how high the velocity of the second object is.
But when comparing two objects, we find that the same force acts differently on these two objects of different masses for reasons that are only related to the mass of the object. So it is said that inertia has nothing to do with the velocity of the object, only with the mass, and the greater the mass, the greater the inertia.
1. The size of inertia is only related to mass, not speed.
2. The property of an object that remains in its original state of rest or in a state of uniform linear motion is called inertia. Inertia is an inherent property of all objects, and inertia exists objectively and has nothing to do with the motion state of the object, whether it is subjected to force or not.
3. Definition of inertia: We call the property of an object that keeps its state of motion unchanged as inertia. Inertia represents how easy it is for an object to change its state of motion.
The magnitude of inertia is only related to the mass of the object. It is relatively difficult to change the motion state of an object with a large mass, that is, it has a large inertia; The motion state of an object with a small mass is relatively easy to change, that is, the inertia is small.
4. Inertia is an inherent property of an object, and it cannot be said that "inertia is acquired" "due to the action of inertia". The correct one is "with inertia".
Inertia, is a property of an object that is only related to the mass of the object. inertia, which does not get bigger or smaller. Velocity only affects the kinetic energy possessed by a moving object.
Yes! Any geometric or physical quantity as long as it can establish a double set between a mathematical quantity (such as force and vector), it can be considered that this quantity is measurable, if we use the coordinate system to find the length of a line segment, although the coordinate system can change, but the value obtained is not the same, the mass is the measure of the inertia of the object, in Newton's famous work "Mathematical Principles of Natural Philosophy", it is defined that mass can be obtained by the product of density and volume, representing the amount of matter, implied as a measure of the inertia of the object, There are even places in the book where the word mass is not used to write about the inertia of objects. (The direct translation in the original book is the quantity of matter, and the word mass in physics now agrees).
Listen to Albert Einstein talk about the beginning of physics: the law of inertia.
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