In general, we know that, on any object in order to force it to start running. It is
recognized by the Newton’s second law of motion. The object space has changed as a result of the use of force. The acceleration has been created. Newton’s second law of motion can be calculated by using the acceleration value, but the value of distance cannot be counted. To calculate the value of the distance, we need another equation.
For example, SUVAT equations ("SUVAT" is an acronym from the variables:
displacement, initial velocity, final velocity, acceleration, time).
According to SUVAT equations, distance is half the value of acceleration (for the time being the primary unit). This decision is contrary to Newton’s second law of motion. It is contrary to the definition of acceleration. For the initial single time, distance and acceleration should be equal (according to both Newtonian and modern mechanics).
The constant acceleration to be applied to the amount of time per unit will increase the velocity of the same amount. In fact, the object absorbs some of the force (in other words, energy) of inertia to be free. Objects absorb some of the force of inertia is released first. And then begin to work. This is a fundamental characteristic of the universe inanimate objects. By Newton’s laws of inanimate objects used to be free of the inertia cannot be explained. It cannot be explained by modern physics. This is explained by the combination of SUVAT and Newton’s equations and prove it.
For the Initial Single Time, Newton’s Second Law of Motion is Wrong. And its Results.
Aijack Chowdhury
Department of Chemistry, University of Dhaka , Dhaka-1000, Bangladesh
Abstract
Keywords: Fundamental, Inertia, Acceleration, Absorb.
IJST
1. Introduction
For the time being the primary unit, Newton’s second law of motion is not applicable .Question arises, what is the reason of it? .According to both classical and modern mechanics all the work is done by force. First, to be free of the inertia of the objects in the universe absorb some of the force (in other words, energy). And then begin to work .It can be called a waste of energy.
2. Description
In our daily life, it is very important to energy production and consumption of energy.
We hope by the power of the force. We apply a constant force on the object and create acceleration. Let it be applied acceleration. Then, count the value of the distance crossed by the applied acceleration. The velocity obtained by distance count. Now, let’s calculate the acceleration obtained by the velocity values. Let it be displayed acceleration. Turns out, the displayed value of acceleration and acceleration values applied unevenly.
3. Proof
Think, a constant force is applied to a fixed object. As a result, it exceeds a certain time for a certain distance. It is the creation of a constant acceleration. Distance to object,
(1)
(For the time being at any particular unit) Here,
At certain times distance of the object passed.
Initial velocity.
Created or applied acceleration.
Time.
IJST
(1) No. According to the equation,
(When , ) or,
Distance is half the value of the acceleration. According to Newton’s second law of
motion,
Here,
Applied force (for the time being the primary unit).
Mass of object.
Applied acceleration.
Again think, the acceleration applied to 4 (for example).
So,
Now, (2) No. According to the equation would force applied to the primary unit of time,
F = N (When
or, .
For the time being the primary unit (1) No. According to the equation object will be passed distance,
or,
. Where,
IJST
For the time being the primary unit, the velocity of the object (think).
or, (
.
For the time being the primary unit, the acceleration will be displayed (think).
Now,
or, ( = .
force necessary to cause the acceleration of .According to Newton’s second law of motion,
(3)
Here,
(3) No. According to the equation,
` ( ) or
Appear in the distance; velocity and acceleration are equal to each measure. According to the definition of acceleration, distance, velocity and acceleration measure equal to one another (for the time being the primary unit). Here, the acceleration applied to 4 . But the acceleration of the object is displayed. Therefore, the acceleration applied to the acceleration of the object displayed in half. Hence, shown force (2 N) is half to applied force (4 N). Half of the amount of force applied is absorbed by the object. This is half the amount of force applied to an object to be used free of inertia. This cannot be done by half the amount of force applied. So it turns out
IJST
not going to get any work. More than half the distance of the object exceeds expectations. As a result, for the time being the primary unit,
object to be
(When 0 , a ) or,
. Where
At the distance of the object passed to the second unit.
The second single for the time being, the object was added distance (think).
Here,
(6-2) m or, 4 m
Because, for the time being the primary unit, the object was surpassed 2 m distance.
The second unit at excess velocity of the object (think).
or, ms-1. (When = 4 m, t =1 s) = 4 ms-1.
F ma.
Think, on the object is the same amount of force is applied intermittently.
(3) No. According to the equation, the second single time surpassed the distance of the
IJST
The second single for the time being, will be the object of additional acceleration (think).
Now,
or,
The second unit will force the object shown F2 (think).
or, .
(3) No. According to the equation, the third unit for the period surpassed the distance of the object to be
(When 0 , a = ) or,
. Where
At the distance of the object passed to the third unit.
The third single for the time being, the object was added distance (think).
Here,
or,
.
Because, the second single for the time being, the object was passed distance of 4 m.
The third unit at excess velocity of the object (think).
or, (
IJST
The third single for the time being, will be the object of additional acceleration (think).
Now,
or, (
.
The third unit will force the object shown F3 (think).
or,
.
So it turns out that, for the second time and the third unit, the display is equal to the acceleration and the acceleration applied. And the force applied force equal to each other. Thus, for every unit of time, appears to be the same as the acceleration and the acceleration applied. Similarly, for every unit of time, appears to be the same force
and applied force.
4. Results & Conclusion
Half of the applied energy is absorbed by the object. This energy is used to be free from worldliness. So, Newton's second law of motion to all the rest, except for the initial single time is right for a single period. For the same reason, the primary unit of time, the kinetic energy equation does not apply.
5. Appendix A SUVAT equation is mentioned below.
.
For the time being at any particular unit, .
6. References
[1] Newton's "Axioms or Laws of Motion" starting on page 19 of volume 1 of the 1729 Translation of the "Principia".
[2] Keith Johnson (2001). Physics for you: revised national curriculum edition for
