Q.12. Differentiate xn by ab-initio method
Answers
Answer:
Differentiation by Abinitio
This is also known as Differentiation by definition or Differentiation by Principle.
The fundamental method to find derivatives of a function y=f(x) with respect to x is called the First principle to find derivatives of a function.
Consider a function y= f(x)
Now if x is incremented by a value Δ x then the value of y also changes (say) by Δ y.
y + Δy = f(x+Δx)
Thus the change in value of y, is
Δy = (y + Δy) -y
?y/?x=(f(x+?x)-f(x))/?x
The derivative of function y = f(x) at a point (x, y) is the slope of the tangent of the function at that point.
dy/dx = lim?x→0 ?y/?x = lim?x→0 (f(x+?x)-1(x))/?x
Hence the derivative of the function y=f(x) is found by the above method.
Illustration:
Find the derivatives of the function y = x2 from first principle.
It is given that y=x2
If x is incremented by Δx then y changes by Δy
y + Δy = (x+Δx)2
The changes in y that is, Δy can be calculated as
Δy = (y+Δy)-y=(x+Δ)2=2x ?x+(?x)2
Δy/?x = (2x?x+(?x)2)/?x 2x + ?x
dy/dx = lim?x→0 ?y/?x = lim?x→0 (2x+?x) = 2x
Differences between xn by the ab-initio method:
- This is also known as Differences in meaning or Differences in goal.
- The basic method of subtraction y = f (x) in relation to x is called the First Outcome Acquisition principle.
- Consider the function y = f (x).
- Now if x is multiplied by the number Δ x the value of y also changes (for us) to Δy.
- y + Δy = f (x + Δx)
- Therefore the conversion of the value of y, is Δy = (y + Δy) - y.
- The output of a single function is y = f (x) somewhere (x, y) the slope of the task tangent.