"Published in Vacaville, California, USA"
Using the fact that
show that
Solution:
Consider the given equation above
Take the derivative on both sides of the equation with respect to x by quotient formula, we have
Therefore,
This website will show the principles of solving Math problems in Arithmetic, Algebra, Plane Geometry, Solid Geometry, Analytic Geometry, Trigonometry, Differential Calculus, Integral Calculus, Statistics, Differential Equations, Physics, Mechanics, Strength of Materials, and Chemical Engineering Math that we are using anywhere in everyday life. This website is also about the derivation of common formulas and equations. (Founded on September 28, 2012 in Newark, California, USA)
Sunday, March 2, 2014
Second Derivative Problems - Reciprocal Formula
Category: Differential Calculus, Algebra
"Published in Vacaville, California, USA"
Using the fact that
show that
Solution:
Consider the given equation above
Take the derivative on both sides of the equation with respect to x by quotient formula, we have
Therefore,
"Published in Vacaville, California, USA"
Using the fact that
show that
Solution:
Consider the given equation above
Take the derivative on both sides of the equation with respect to x by quotient formula, we have
Therefore,
Saturday, March 1, 2014
Second Derivative Problems - Quotient Formula
Category: Differential Calculus, Algebra
"Published in Vacaville, California, USA"
Find a formula for
Solution:
The first thing that we have to do is to get the derivative of u/v with respect to x where u and v are functions of x. Apply the derivative by quotient formula, we have
Take the derivative again of the above equation with respect to x by product formula, we have
where:
"Published in Vacaville, California, USA"
Find a formula for
Solution:
The first thing that we have to do is to get the derivative of u/v with respect to x where u and v are functions of x. Apply the derivative by quotient formula, we have
Friday, February 28, 2014
Second Derivative Problems - Product Formula
Category: Differential Calculus, Algebra
"Published in Vacaville, California, USA"
Find a formula for
Solution:
The first thing that we have to do is to get the derivative of uv with respect to x where u and v are functions of x. Apply the derivative by product formula, we have
Take the derivative again of the above equation with respect to x by product formula, we have
where:
"Published in Vacaville, California, USA"
Find a formula for
Solution:
The first thing that we have to do is to get the derivative of uv with respect to x where u and v are functions of x. Apply the derivative by product formula, we have
Take the derivative again of the above equation with respect to x by product formula, we have
where:
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