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1、Newtons first lawMain article: Newtons laws of motion#Newtons first lawNewtons first law of motion states that objects continue to move in a state of constant velocity unless acted upon by an external net force or resultant force.10 This law is an extension of Galileos insight that constant velocity
2、 was associated with a lack of net force (see a more detailed description of this below). Newton proposed that every object with mass has an innate inertia that functions as the fundamental equilibrium natural state in place of the Aristotelian idea of the natural state of rest. That is, the first l
3、aw contradicts the intuitive Aristotelian belief that a net force is required to keep an object moving with constant velocity. By making rest physically indistinguishable from non-zero constant velocity, Newtons first law directly connects inertia with the concept of relative velocities. Specificall
4、y, in systems where objects are moving with different velocities, it is impossible to determine which object is in motion and which object is at rest. In other words, to phrase matters more technically, the laws of physics are the same in every inertial frame of reference, that is, in all frames rel
5、ated by a Galilean transformation.For example, while traveling in a moving vehicle at a constant velocity, the laws of physics do not change from being at rest. A person can throw a ball straight up in the air and catch it as it falls down without worrying about applying a force in the direction the
6、 vehicle is moving. This is true even though another person who is observing the moving vehicle pass by also observes the ball follow a curving parabolic path in the same direction as the motion of the vehicle. It is the inertia of the ball associated with its constant velocity in the direction of t
7、he vehicles motion that ensures the ball continues to move forward even as it is thrown up and falls back down. From the perspective of the person in the car, the vehicle and everything inside of it is at rest: It is the outside world that is moving with a constant speed in the opposite direction. S
8、ince there is no experiment that can distinguish whether it is the vehicle that is at rest or the outside world that is at rest, the two situations are considered to be physically indistinguishable. Inertia therefore applies equally well to constant velocity motion as it does to rest.The concept of
9、inertia can be further generalized to explain the tendency of objects to continue in many different forms of constant motion, even those that are not strictly constant velocity. The rotational inertia of planet Earth is what fixes the constancy of the length of a day and the length of a year. Albert
10、 Einstein extended the principle of inertia further when he explained that reference frames subject to constant acceleration, such as those free-falling toward a gravitating object, were physically equivalent to inertial reference frames. This is why, for example, astronauts experience weightlessnes
11、s when in free-fall orbit around the Earth, and why Newtons Laws of Motion are more easily discernible in such environments. If an astronaut places an object with mass in mid-air next to himself, it will remain stationary with respect to the astronaut due to its inertia. This is the same thing that
12、would occur if the astronaut and the object were in intergalactic space with no net force of gravity acting on their shared reference frame. This principle of equivalence was one of the foundational underpinnings for the development of the general theory of relativity.11Newtons second lawMain articl
13、e: Newtons laws of motion#Newtons second lawA modern statement of Newtons second law is a vector differential equation:12where is the momentum of the system, and is the net (vector sum) force. In equilibrium, there is zero net force by definition, but (balanced) forces may be present nevertheless. I
14、n contrast, the second law states an unbalanced force acting on an object will result in the objects momentum changing over time.10By the definition of momentum,where m is the mass and is the velocity.In a system of constant mass, the use of the constant factor rule in differentiation allows the mas
15、s to move outside the derivative operator, and the equation becomes.By substituting the definition of acceleration, the algebraic version of Newtons second law is derived:It is sometimes called the second most famous formula in physics.13 Newton never explicitly stated the formula in the reduced for
16、m above.Newtons second law asserts the direct proportionality of acceleration to force and the inverse proportionality of acceleration to mass. Accelerations can be defined through kinematic measurements. However, while kinematics are well-described through reference frame analysis in advanced physics, there are still deep questions that remain as to what is the proper definition of mass. General relativity offers an equivalence between space-time and
