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Why does sin(x) - sin(y) equal this?

The Next CEO of Stack OverflowProve that $sin(2A)+sin(2B)+sin(2C)=4sin(A)sin(B)sin(C)$ when $A,B,C$ are angles of a triangleWhy $sin(pi)$ sometimes equal to $0$?Understanding expanding trig identitiesWhy does this always equal $1$?When does this equation $cos(alpha + beta) = cos(alpha) + cos(beta)$ hold?Solve $ cos 2x - sin x +1=0$Writing equation in terms of sin and cosSolve Trigonometric Equality, Multiple Angle TrigonometryFinding relationships between angles, a, b and c when $sin a - sin b - sin c = 0$Does $sin^2x-cos^2x$ equal $cos(2x)$

Why does this equality hold?

$sin x - sin y = 2 cos(frac{x+y}{2}) sin(frac{x-y}{2})$.

My professor was saying that since

(i) $sin(A+B)=sin A cos B+ sin B cos A$

and

(ii) $sin(A-B) = sin A cos B - sin B cos A$

we just let $A=frac{x+y}{2}$ and $B=frac{x-y}{2}$. But I tried to write this out and could not figure it out. Any help would be appreciated

asked 2 hours ago

Ryan Duran

111

New contributor

$begingroup$
Let A and B be as you defined. Then $sin(A+B)=sin(frac{x+y}{2}+frac{x-y}{2})$. Evaluate this and use the given identities.
$endgroup$
– Newman
2 hours ago

$begingroup$
After substituting for A and B in the equations (i) and (ii) you have to calculate (i) - (ii)
$endgroup$
– R_D
2 hours ago

add a comment |

Why does this equality hold?

$sin x - sin y = 2 cos(frac{x+y}{2}) sin(frac{x-y}{2})$.

My professor was saying that since

(i) $sin(A+B)=sin A cos B+ sin B cos A$

and

(ii) $sin(A-B) = sin A cos B - sin B cos A$

we just let $A=frac{x+y}{2}$ and $B=frac{x-y}{2}$. But I tried to write this out and could not figure it out. Any help would be appreciated

asked 2 hours ago

Ryan Duran

111

New contributor

$begingroup$
Let A and B be as you defined. Then $sin(A+B)=sin(frac{x+y}{2}+frac{x-y}{2})$. Evaluate this and use the given identities.
$endgroup$
– Newman
2 hours ago

$begingroup$
After substituting for A and B in the equations (i) and (ii) you have to calculate (i) - (ii)
$endgroup$
– R_D
2 hours ago

add a comment |

Why does this equality hold?

$sin x - sin y = 2 cos(frac{x+y}{2}) sin(frac{x-y}{2})$.

My professor was saying that since

(i) $sin(A+B)=sin A cos B+ sin B cos A$

and

(ii) $sin(A-B) = sin A cos B - sin B cos A$

we just let $A=frac{x+y}{2}$ and $B=frac{x-y}{2}$. But I tried to write this out and could not figure it out. Any help would be appreciated

asked 2 hours ago

Ryan Duran

111

New contributor

Why does this equality hold?

$sin x - sin y = 2 cos(frac{x+y}{2}) sin(frac{x-y}{2})$.

My professor was saying that since

(i) $sin(A+B)=sin A cos B+ sin B cos A$

and

(ii) $sin(A-B) = sin A cos B - sin B cos A$

we just let $A=frac{x+y}{2}$ and $B=frac{x-y}{2}$. But I tried to write this out and could not figure it out. Any help would be appreciated

real-analysis analysis trigonometry

asked 2 hours ago

Ryan Duran

111

New contributor

asked 2 hours ago

Ryan Duran

111

New contributor

asked 2 hours ago

Ryan Duran

111

New contributor

asked 2 hours ago

Ryan Duran

111

asked 2 hours ago

Ryan Duran

111

New contributor

Ryan Duran is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

$begingroup$
Let A and B be as you defined. Then $sin(A+B)=sin(frac{x+y}{2}+frac{x-y}{2})$. Evaluate this and use the given identities.
$endgroup$
– Newman
2 hours ago

$begingroup$
After substituting for A and B in the equations (i) and (ii) you have to calculate (i) - (ii)
$endgroup$
– R_D
2 hours ago

add a comment |

$begingroup$
Let A and B be as you defined. Then $sin(A+B)=sin(frac{x+y}{2}+frac{x-y}{2})$. Evaluate this and use the given identities.
$endgroup$
– Newman
2 hours ago

$begingroup$
After substituting for A and B in the equations (i) and (ii) you have to calculate (i) - (ii)
$endgroup$
– R_D
2 hours ago

Let A and B be as you defined. Then $sin(A+B)=sin(frac{x+y}{2}+frac{x-y}{2})$. Evaluate this and use the given identities.

– Newman
2 hours ago

After substituting for A and B in the equations (i) and (ii) you have to calculate (i) - (ii)

– R_D
2 hours ago

add a comment |

3 Answers
3

active

oldest

votes

The main trick is here:

begin{align}
color{red} {x = {x+yover2} + {x-yover2}}\[1em]
color{blue}{y = {x+yover2} - {x-yover2}}
end{align}

(You may evaluate the right-hand sides of them to verify that these strange equations are correct.)

Substituting the right-hand sides for $color{red}x$ and $color{blue}y,,$ you will obtain

begin{align}
sin color{red} x - sin color{blue }y = sin left(color{red}{{x+yover2} + {x-yover2} }right) - sin left(color{blue }{{x+yover2} - {x-yover2}} right) \[1em]
end{align}

All the rest is then only a routine calculation:

begin{align}
require{enclose}
&= sin left({x+yover2}right) cosleft( {x-yover2} right) +
sin left({x-yover2}right) cosleft( {x+yover2} right)\[1em]
&-left[sin left({x+yover2}right) cosleft( {x-yover2} right) -
sin left({x-yover2}right) cosleft( {x+yover2} right)right]\[3em]
&= enclose{updiagonalstrike}{sin left({x+yover2}right) cosleft( {x-yover2} right)} +
sin left({x-yover2}right) cosleft( {x+yover2} right)\[1em]
&-enclose{updiagonalstrike}{sin left({x+yover2}right) cosleft( {x-yover2} right)} +
sin left({x-yover2}right) cosleft( {x+yover2} right)
\[3em]
&=2sin left({x-yover2}right) cosleft( {x+yover2} right)\
end{align}

edited 1 hour ago

answered 1 hour ago

MarianD

2,0831617

add a comment |

Following your professor's advice, let $A=frac{x+y}{2}$, $B=frac{x-y}{2}$. Then $$x=A+B\y=A-B$$So the LHS of your equation becomes $$sin(A+B)-sin(A-B)$$Now you just use the usual addition/subtraction trigonometric identities (i) and (ii) listed to evaluate this. It should give $2cos Asin B$ as required.

answered 2 hours ago

John Doe

11.4k11239

add a comment |

Following your notation, let $A=dfrac{x+y}{2}$ and $B=dfrac{x-y}{2}$.
Note that $A+B=x$ and $A-B=y$.

Now, $sin x=sin(A+B)=sin Acos B+cos Asin B$ and $sin y=sin(A-B)=sin Acos B - cos Asin B$ from your professor's advice.

To get the LHS, $sin x-sin y = 2cos Asin B$. And that's it. Replace $A,B$ in terms of $x$ and $y$.

answered 1 hour ago

Admuth

685

add a comment |

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3 Answers
3

active

oldest

votes

3 Answers
3

active

oldest

votes

The main trick is here:

begin{align}
color{red} {x = {x+yover2} + {x-yover2}}\[1em]
color{blue}{y = {x+yover2} - {x-yover2}}
end{align}

(You may evaluate the right-hand sides of them to verify that these strange equations are correct.)

Substituting the right-hand sides for $color{red}x$ and $color{blue}y,,$ you will obtain

begin{align}
sin color{red} x - sin color{blue }y = sin left(color{red}{{x+yover2} + {x-yover2} }right) - sin left(color{blue }{{x+yover2} - {x-yover2}} right) \[1em]
end{align}

All the rest is then only a routine calculation:

edited 1 hour ago

answered 1 hour ago

MarianD

2,0831617

add a comment |

The main trick is here:

begin{align}
color{red} {x = {x+yover2} + {x-yover2}}\[1em]
color{blue}{y = {x+yover2} - {x-yover2}}
end{align}

(You may evaluate the right-hand sides of them to verify that these strange equations are correct.)

Substituting the right-hand sides for $color{red}x$ and $color{blue}y,,$ you will obtain

begin{align}
sin color{red} x - sin color{blue }y = sin left(color{red}{{x+yover2} + {x-yover2} }right) - sin left(color{blue }{{x+yover2} - {x-yover2}} right) \[1em]
end{align}

All the rest is then only a routine calculation:

edited 1 hour ago

answered 1 hour ago

MarianD

2,0831617

add a comment |

The main trick is here:

begin{align}
color{red} {x = {x+yover2} + {x-yover2}}\[1em]
color{blue}{y = {x+yover2} - {x-yover2}}
end{align}

(You may evaluate the right-hand sides of them to verify that these strange equations are correct.)

Substituting the right-hand sides for $color{red}x$ and $color{blue}y,,$ you will obtain

begin{align}
sin color{red} x - sin color{blue }y = sin left(color{red}{{x+yover2} + {x-yover2} }right) - sin left(color{blue }{{x+yover2} - {x-yover2}} right) \[1em]
end{align}

All the rest is then only a routine calculation:

edited 1 hour ago

answered 1 hour ago

MarianD

2,0831617

The main trick is here:

begin{align}
color{red} {x = {x+yover2} + {x-yover2}}\[1em]
color{blue}{y = {x+yover2} - {x-yover2}}
end{align}

(You may evaluate the right-hand sides of them to verify that these strange equations are correct.)

Substituting the right-hand sides for $color{red}x$ and $color{blue}y,,$ you will obtain

begin{align}
sin color{red} x - sin color{blue }y = sin left(color{red}{{x+yover2} + {x-yover2} }right) - sin left(color{blue }{{x+yover2} - {x-yover2}} right) \[1em]
end{align}

All the rest is then only a routine calculation:

edited 1 hour ago

answered 1 hour ago

MarianD

2,0831617

edited 1 hour ago

answered 1 hour ago

MarianD

2,0831617

answered 1 hour ago

MarianD

2,0831617

answered 1 hour ago

MarianD

2,0831617

add a comment |

answered 2 hours ago

John Doe

11.4k11239

add a comment |

answered 2 hours ago

John Doe

11.4k11239

add a comment |

answered 2 hours ago

John Doe

11.4k11239

answered 2 hours ago

John Doe

11.4k11239

answered 2 hours ago

John Doe

11.4k11239

answered 2 hours ago

John Doe

11.4k11239

answered 2 hours ago

John Doe

11.4k11239

add a comment |

Following your notation, let $A=dfrac{x+y}{2}$ and $B=dfrac{x-y}{2}$.
Note that $A+B=x$ and $A-B=y$.

Now, $sin x=sin(A+B)=sin Acos B+cos Asin B$ and $sin y=sin(A-B)=sin Acos B - cos Asin B$ from your professor's advice.

To get the LHS, $sin x-sin y = 2cos Asin B$. And that's it. Replace $A,B$ in terms of $x$ and $y$.

answered 1 hour ago

Admuth

685

add a comment |

Following your notation, let $A=dfrac{x+y}{2}$ and $B=dfrac{x-y}{2}$.
Note that $A+B=x$ and $A-B=y$.

Now, $sin x=sin(A+B)=sin Acos B+cos Asin B$ and $sin y=sin(A-B)=sin Acos B - cos Asin B$ from your professor's advice.

To get the LHS, $sin x-sin y = 2cos Asin B$. And that's it. Replace $A,B$ in terms of $x$ and $y$.

answered 1 hour ago

Admuth

685

add a comment |

Following your notation, let $A=dfrac{x+y}{2}$ and $B=dfrac{x-y}{2}$.
Note that $A+B=x$ and $A-B=y$.

Now, $sin x=sin(A+B)=sin Acos B+cos Asin B$ and $sin y=sin(A-B)=sin Acos B - cos Asin B$ from your professor's advice.

To get the LHS, $sin x-sin y = 2cos Asin B$. And that's it. Replace $A,B$ in terms of $x$ and $y$.

answered 1 hour ago

Admuth

685

Following your notation, let $A=dfrac{x+y}{2}$ and $B=dfrac{x-y}{2}$.
Note that $A+B=x$ and $A-B=y$.

Now, $sin x=sin(A+B)=sin Acos B+cos Asin B$ and $sin y=sin(A-B)=sin Acos B - cos Asin B$ from your professor's advice.

To get the LHS, $sin x-sin y = 2cos Asin B$. And that's it. Replace $A,B$ in terms of $x$ and $y$.

answered 1 hour ago

Admuth

685

answered 1 hour ago

Admuth

685

answered 1 hour ago

Admuth

685

answered 1 hour ago

Admuth

685

add a comment |

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