Can someone explain this inverse tan integral for me please?

In summary, the integral of (Ldv)/(AgL+v^2) from [v0,0] can be simplified by dividing both numerator and denominator by AgL and then making the substitution u= (v/√(AgL)). This will result in the integral becoming √(L/Ag) times the arctan of u from [0,x], where u is a new variable.
  • #1
btbam91
91
0
integral of
(Ldv)/(AgL+v^2) from [v0,0]

I'm supposed to get (...)arctan(...)

where (...) are 2 different quantities.
I'm confused on how to get arctan out of this integral whenarctan = integral of

(1*dv)/(1+v^2) from [0,x]

Help is appreciated.
 
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  • #2
hi btbam91! :smile:

(try using the X2 icon just above the Reply box :wink:)

scale it down … substitute v = x√(AgL) :wink:

(or go straight to v = √(AgL)tanθ)
 
  • #3
Equivalently, divide both numerator and denominator of
[tex]\frac{ L dv}{AgL+ v^2}[/tex]
by AgL:
[tex]\frac{\frac{1}{Ag}dv}{1+ \frac{v^2}{AgL}}[/tex]
and then make the substitution
[tex]u= \frac{v}{\sqrt{AgL}}[/tex]
Because [itex]du= dv/\sqrt{AgL}[/itex] that changes the integral to
[tex]\sqrt{\frac{L}{Ag}}\int \frac{du}{1+ u^2}[/tex]
 
  • #4
Thanks guys! I really appreciate it!
 

Related to Can someone explain this inverse tan integral for me please?

1. What is an inverse tan integral?

An inverse tan integral is a type of integral that involves the inverse trigonometric function tangent (tan-1). It is used to find the area under the curve of a function that contains the inverse tangent function.

2. How is an inverse tan integral solved?

To solve an inverse tan integral, you must first use a trigonometric identity to rewrite the integral in terms of tangent and then use integration by parts to evaluate it. This will result in an expression with both tangent and natural logarithmic functions, which can then be solved using basic integration techniques.

3. What is the purpose of using an inverse tan integral?

An inverse tan integral is used to calculate the area under the curve of a function that contains the inverse tangent function. This can be useful in applications such as physics, engineering, and statistics.

4. Are there any special rules for solving inverse tan integrals?

Yes, there are certain trigonometric identities that can be used to simplify inverse tan integrals. These include the double angle, half angle, and power reduction formulas for tangent.

5. Are there any practical applications of inverse tan integrals?

Yes, inverse tan integrals are used in a variety of fields, including physics, engineering, and economics. For example, they can be used to calculate the area under a curve representing velocity to determine the displacement of an object over time.

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