Simplify $ frac{4cos(x)}{1-cos(x)} - frac{4sin^2(x)}{(1-cos(x))^2}$ [closed]











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Spent any hour trying, but can't simplify this formula.



$$ frac{4cos(x)}{1-cos(x)} - frac{4sin^2(x)}{(1-cos(x))^2}$$



Calculator CAS tells me the result should be $dfrac{4}{cos(x) - 1}$, but I can't seem to do it myself. Thanks!










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closed as off-topic by amWhy, Scientifica, Arnaud D., Nosrati, Xander Henderson Nov 22 at 20:43


This question appears to be off-topic. The users who voted to close gave this specific reason:


  • "This question is missing context or other details: Please improve the question by providing additional context, which ideally includes your thoughts on the problem and any attempts you have made to solve it. This information helps others identify where you have difficulties and helps them write answers appropriate to your experience level." – amWhy, Scientifica, Arnaud D., Nosrati, Xander Henderson

If this question can be reworded to fit the rules in the help center, please edit the question.













  • Hint: start with the common denominator of $(1- cos(x))^2$. Write the first fraction in terms of this denominator. Add the fractions. Simplify.
    – amWhy
    Nov 22 at 19:58








  • 1




    Isn't there a missing bracket in the second denominator?
    – user376343
    Nov 22 at 20:11










  • @amWhy Thanks for your help. Forgot how I could split (1-cosx^2) into (1-cosx) and (1+cosx).
    – Maxwell Stone
    Nov 22 at 20:12












  • @Mason Yeah that's right what am I thinking. Fixed it.
    – Maxwell Stone
    Nov 22 at 20:15

















up vote
0
down vote

favorite












Spent any hour trying, but can't simplify this formula.



$$ frac{4cos(x)}{1-cos(x)} - frac{4sin^2(x)}{(1-cos(x))^2}$$



Calculator CAS tells me the result should be $dfrac{4}{cos(x) - 1}$, but I can't seem to do it myself. Thanks!










share|cite|improve this question















closed as off-topic by amWhy, Scientifica, Arnaud D., Nosrati, Xander Henderson Nov 22 at 20:43


This question appears to be off-topic. The users who voted to close gave this specific reason:


  • "This question is missing context or other details: Please improve the question by providing additional context, which ideally includes your thoughts on the problem and any attempts you have made to solve it. This information helps others identify where you have difficulties and helps them write answers appropriate to your experience level." – amWhy, Scientifica, Arnaud D., Nosrati, Xander Henderson

If this question can be reworded to fit the rules in the help center, please edit the question.













  • Hint: start with the common denominator of $(1- cos(x))^2$. Write the first fraction in terms of this denominator. Add the fractions. Simplify.
    – amWhy
    Nov 22 at 19:58








  • 1




    Isn't there a missing bracket in the second denominator?
    – user376343
    Nov 22 at 20:11










  • @amWhy Thanks for your help. Forgot how I could split (1-cosx^2) into (1-cosx) and (1+cosx).
    – Maxwell Stone
    Nov 22 at 20:12












  • @Mason Yeah that's right what am I thinking. Fixed it.
    – Maxwell Stone
    Nov 22 at 20:15















up vote
0
down vote

favorite









up vote
0
down vote

favorite











Spent any hour trying, but can't simplify this formula.



$$ frac{4cos(x)}{1-cos(x)} - frac{4sin^2(x)}{(1-cos(x))^2}$$



Calculator CAS tells me the result should be $dfrac{4}{cos(x) - 1}$, but I can't seem to do it myself. Thanks!










share|cite|improve this question















Spent any hour trying, but can't simplify this formula.



$$ frac{4cos(x)}{1-cos(x)} - frac{4sin^2(x)}{(1-cos(x))^2}$$



Calculator CAS tells me the result should be $dfrac{4}{cos(x) - 1}$, but I can't seem to do it myself. Thanks!







algebra-precalculus trigonometry






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edited Nov 22 at 20:25









m0nhawk

1,49031128




1,49031128










asked Nov 22 at 19:55









Maxwell Stone

63




63




closed as off-topic by amWhy, Scientifica, Arnaud D., Nosrati, Xander Henderson Nov 22 at 20:43


This question appears to be off-topic. The users who voted to close gave this specific reason:


  • "This question is missing context or other details: Please improve the question by providing additional context, which ideally includes your thoughts on the problem and any attempts you have made to solve it. This information helps others identify where you have difficulties and helps them write answers appropriate to your experience level." – amWhy, Scientifica, Arnaud D., Nosrati, Xander Henderson

If this question can be reworded to fit the rules in the help center, please edit the question.




closed as off-topic by amWhy, Scientifica, Arnaud D., Nosrati, Xander Henderson Nov 22 at 20:43


This question appears to be off-topic. The users who voted to close gave this specific reason:


  • "This question is missing context or other details: Please improve the question by providing additional context, which ideally includes your thoughts on the problem and any attempts you have made to solve it. This information helps others identify where you have difficulties and helps them write answers appropriate to your experience level." – amWhy, Scientifica, Arnaud D., Nosrati, Xander Henderson

If this question can be reworded to fit the rules in the help center, please edit the question.












  • Hint: start with the common denominator of $(1- cos(x))^2$. Write the first fraction in terms of this denominator. Add the fractions. Simplify.
    – amWhy
    Nov 22 at 19:58








  • 1




    Isn't there a missing bracket in the second denominator?
    – user376343
    Nov 22 at 20:11










  • @amWhy Thanks for your help. Forgot how I could split (1-cosx^2) into (1-cosx) and (1+cosx).
    – Maxwell Stone
    Nov 22 at 20:12












  • @Mason Yeah that's right what am I thinking. Fixed it.
    – Maxwell Stone
    Nov 22 at 20:15




















  • Hint: start with the common denominator of $(1- cos(x))^2$. Write the first fraction in terms of this denominator. Add the fractions. Simplify.
    – amWhy
    Nov 22 at 19:58








  • 1




    Isn't there a missing bracket in the second denominator?
    – user376343
    Nov 22 at 20:11










  • @amWhy Thanks for your help. Forgot how I could split (1-cosx^2) into (1-cosx) and (1+cosx).
    – Maxwell Stone
    Nov 22 at 20:12












  • @Mason Yeah that's right what am I thinking. Fixed it.
    – Maxwell Stone
    Nov 22 at 20:15


















Hint: start with the common denominator of $(1- cos(x))^2$. Write the first fraction in terms of this denominator. Add the fractions. Simplify.
– amWhy
Nov 22 at 19:58






Hint: start with the common denominator of $(1- cos(x))^2$. Write the first fraction in terms of this denominator. Add the fractions. Simplify.
– amWhy
Nov 22 at 19:58






1




1




Isn't there a missing bracket in the second denominator?
– user376343
Nov 22 at 20:11




Isn't there a missing bracket in the second denominator?
– user376343
Nov 22 at 20:11












@amWhy Thanks for your help. Forgot how I could split (1-cosx^2) into (1-cosx) and (1+cosx).
– Maxwell Stone
Nov 22 at 20:12






@amWhy Thanks for your help. Forgot how I could split (1-cosx^2) into (1-cosx) and (1+cosx).
– Maxwell Stone
Nov 22 at 20:12














@Mason Yeah that's right what am I thinking. Fixed it.
– Maxwell Stone
Nov 22 at 20:15






@Mason Yeah that's right what am I thinking. Fixed it.
– Maxwell Stone
Nov 22 at 20:15












2 Answers
2






active

oldest

votes

















up vote
0
down vote



accepted










HINT



Recall that



$$sin^2 x=1-cos^2 x=(1-cos x)(1+cos x)$$



therefore



$$frac{4cos x}{1-cos x } - frac{4sin^2 x}{(1-cos x)^2}=frac{4cos x}{1-cos x} - frac{4(1-cos x)(1+cos x)}{(1-cos x)^2}$$






share|cite|improve this answer























  • Thanks! I'm new to algebra and completely forgot I could simplify it that way.
    – Maxwell Stone
    Nov 22 at 20:05










  • @MaxwellStone As a suggestion for clearness don't use $sin (x)$ or $cos (x)$ but simply $sin x$ and $cos x$. Use parenthesis only for $sin (f(x))$ or similar expressions.
    – gimusi
    Nov 22 at 20:07










  • Thanks, I'll keep that in mind.
    – Maxwell Stone
    Nov 22 at 20:08






  • 3




    @gimusi You suggested that you omit the parentheses in the interest of clarity. The parentheses are, indeed, often omitted. This does not mean that it is more clear. Personally, I would always advise students to retain the parentheses. This emphasizes that $sin$ is a function which takes an argument. I would also suggest that students use the notation $sin(x)^2$ rather than $sin^2(x)$, as $sin^2(x)$ can be interpreted to mean $sin(sin(x))$, and is ambiguous when the inverse trig functions show up.
    – Xander Henderson
    Nov 22 at 21:05






  • 2




    If you want to suggest that a student omit the parentheses because it is a common convention (it is) and reduces some visual clutter (this is debatable), great! But justifying it in the name of clarity is, frankly, disingenuous.
    – Xander Henderson
    Nov 22 at 21:08


















up vote
2
down vote













$dfrac{4cos(x)(1-cos(x))-4sin^2(x)}{(1-cos(x))^2}=dfrac{4(cos x-1)}{(1-cos(x))^2}=dfrac{-4}{1-cos(x)}=dfrac{4}{cos(x) - 1}$.



(Using $sin^2x+cos^2x=1$).






share|cite|improve this answer






























    2 Answers
    2






    active

    oldest

    votes








    2 Answers
    2






    active

    oldest

    votes









    active

    oldest

    votes






    active

    oldest

    votes








    up vote
    0
    down vote



    accepted










    HINT



    Recall that



    $$sin^2 x=1-cos^2 x=(1-cos x)(1+cos x)$$



    therefore



    $$frac{4cos x}{1-cos x } - frac{4sin^2 x}{(1-cos x)^2}=frac{4cos x}{1-cos x} - frac{4(1-cos x)(1+cos x)}{(1-cos x)^2}$$






    share|cite|improve this answer























    • Thanks! I'm new to algebra and completely forgot I could simplify it that way.
      – Maxwell Stone
      Nov 22 at 20:05










    • @MaxwellStone As a suggestion for clearness don't use $sin (x)$ or $cos (x)$ but simply $sin x$ and $cos x$. Use parenthesis only for $sin (f(x))$ or similar expressions.
      – gimusi
      Nov 22 at 20:07










    • Thanks, I'll keep that in mind.
      – Maxwell Stone
      Nov 22 at 20:08






    • 3




      @gimusi You suggested that you omit the parentheses in the interest of clarity. The parentheses are, indeed, often omitted. This does not mean that it is more clear. Personally, I would always advise students to retain the parentheses. This emphasizes that $sin$ is a function which takes an argument. I would also suggest that students use the notation $sin(x)^2$ rather than $sin^2(x)$, as $sin^2(x)$ can be interpreted to mean $sin(sin(x))$, and is ambiguous when the inverse trig functions show up.
      – Xander Henderson
      Nov 22 at 21:05






    • 2




      If you want to suggest that a student omit the parentheses because it is a common convention (it is) and reduces some visual clutter (this is debatable), great! But justifying it in the name of clarity is, frankly, disingenuous.
      – Xander Henderson
      Nov 22 at 21:08















    up vote
    0
    down vote



    accepted










    HINT



    Recall that



    $$sin^2 x=1-cos^2 x=(1-cos x)(1+cos x)$$



    therefore



    $$frac{4cos x}{1-cos x } - frac{4sin^2 x}{(1-cos x)^2}=frac{4cos x}{1-cos x} - frac{4(1-cos x)(1+cos x)}{(1-cos x)^2}$$






    share|cite|improve this answer























    • Thanks! I'm new to algebra and completely forgot I could simplify it that way.
      – Maxwell Stone
      Nov 22 at 20:05










    • @MaxwellStone As a suggestion for clearness don't use $sin (x)$ or $cos (x)$ but simply $sin x$ and $cos x$. Use parenthesis only for $sin (f(x))$ or similar expressions.
      – gimusi
      Nov 22 at 20:07










    • Thanks, I'll keep that in mind.
      – Maxwell Stone
      Nov 22 at 20:08






    • 3




      @gimusi You suggested that you omit the parentheses in the interest of clarity. The parentheses are, indeed, often omitted. This does not mean that it is more clear. Personally, I would always advise students to retain the parentheses. This emphasizes that $sin$ is a function which takes an argument. I would also suggest that students use the notation $sin(x)^2$ rather than $sin^2(x)$, as $sin^2(x)$ can be interpreted to mean $sin(sin(x))$, and is ambiguous when the inverse trig functions show up.
      – Xander Henderson
      Nov 22 at 21:05






    • 2




      If you want to suggest that a student omit the parentheses because it is a common convention (it is) and reduces some visual clutter (this is debatable), great! But justifying it in the name of clarity is, frankly, disingenuous.
      – Xander Henderson
      Nov 22 at 21:08













    up vote
    0
    down vote



    accepted







    up vote
    0
    down vote



    accepted






    HINT



    Recall that



    $$sin^2 x=1-cos^2 x=(1-cos x)(1+cos x)$$



    therefore



    $$frac{4cos x}{1-cos x } - frac{4sin^2 x}{(1-cos x)^2}=frac{4cos x}{1-cos x} - frac{4(1-cos x)(1+cos x)}{(1-cos x)^2}$$






    share|cite|improve this answer














    HINT



    Recall that



    $$sin^2 x=1-cos^2 x=(1-cos x)(1+cos x)$$



    therefore



    $$frac{4cos x}{1-cos x } - frac{4sin^2 x}{(1-cos x)^2}=frac{4cos x}{1-cos x} - frac{4(1-cos x)(1+cos x)}{(1-cos x)^2}$$







    share|cite|improve this answer














    share|cite|improve this answer



    share|cite|improve this answer








    edited Nov 22 at 20:04

























    answered Nov 22 at 20:03









    gimusi

    92.8k94495




    92.8k94495












    • Thanks! I'm new to algebra and completely forgot I could simplify it that way.
      – Maxwell Stone
      Nov 22 at 20:05










    • @MaxwellStone As a suggestion for clearness don't use $sin (x)$ or $cos (x)$ but simply $sin x$ and $cos x$. Use parenthesis only for $sin (f(x))$ or similar expressions.
      – gimusi
      Nov 22 at 20:07










    • Thanks, I'll keep that in mind.
      – Maxwell Stone
      Nov 22 at 20:08






    • 3




      @gimusi You suggested that you omit the parentheses in the interest of clarity. The parentheses are, indeed, often omitted. This does not mean that it is more clear. Personally, I would always advise students to retain the parentheses. This emphasizes that $sin$ is a function which takes an argument. I would also suggest that students use the notation $sin(x)^2$ rather than $sin^2(x)$, as $sin^2(x)$ can be interpreted to mean $sin(sin(x))$, and is ambiguous when the inverse trig functions show up.
      – Xander Henderson
      Nov 22 at 21:05






    • 2




      If you want to suggest that a student omit the parentheses because it is a common convention (it is) and reduces some visual clutter (this is debatable), great! But justifying it in the name of clarity is, frankly, disingenuous.
      – Xander Henderson
      Nov 22 at 21:08


















    • Thanks! I'm new to algebra and completely forgot I could simplify it that way.
      – Maxwell Stone
      Nov 22 at 20:05










    • @MaxwellStone As a suggestion for clearness don't use $sin (x)$ or $cos (x)$ but simply $sin x$ and $cos x$. Use parenthesis only for $sin (f(x))$ or similar expressions.
      – gimusi
      Nov 22 at 20:07










    • Thanks, I'll keep that in mind.
      – Maxwell Stone
      Nov 22 at 20:08






    • 3




      @gimusi You suggested that you omit the parentheses in the interest of clarity. The parentheses are, indeed, often omitted. This does not mean that it is more clear. Personally, I would always advise students to retain the parentheses. This emphasizes that $sin$ is a function which takes an argument. I would also suggest that students use the notation $sin(x)^2$ rather than $sin^2(x)$, as $sin^2(x)$ can be interpreted to mean $sin(sin(x))$, and is ambiguous when the inverse trig functions show up.
      – Xander Henderson
      Nov 22 at 21:05






    • 2




      If you want to suggest that a student omit the parentheses because it is a common convention (it is) and reduces some visual clutter (this is debatable), great! But justifying it in the name of clarity is, frankly, disingenuous.
      – Xander Henderson
      Nov 22 at 21:08
















    Thanks! I'm new to algebra and completely forgot I could simplify it that way.
    – Maxwell Stone
    Nov 22 at 20:05




    Thanks! I'm new to algebra and completely forgot I could simplify it that way.
    – Maxwell Stone
    Nov 22 at 20:05












    @MaxwellStone As a suggestion for clearness don't use $sin (x)$ or $cos (x)$ but simply $sin x$ and $cos x$. Use parenthesis only for $sin (f(x))$ or similar expressions.
    – gimusi
    Nov 22 at 20:07




    @MaxwellStone As a suggestion for clearness don't use $sin (x)$ or $cos (x)$ but simply $sin x$ and $cos x$. Use parenthesis only for $sin (f(x))$ or similar expressions.
    – gimusi
    Nov 22 at 20:07












    Thanks, I'll keep that in mind.
    – Maxwell Stone
    Nov 22 at 20:08




    Thanks, I'll keep that in mind.
    – Maxwell Stone
    Nov 22 at 20:08




    3




    3




    @gimusi You suggested that you omit the parentheses in the interest of clarity. The parentheses are, indeed, often omitted. This does not mean that it is more clear. Personally, I would always advise students to retain the parentheses. This emphasizes that $sin$ is a function which takes an argument. I would also suggest that students use the notation $sin(x)^2$ rather than $sin^2(x)$, as $sin^2(x)$ can be interpreted to mean $sin(sin(x))$, and is ambiguous when the inverse trig functions show up.
    – Xander Henderson
    Nov 22 at 21:05




    @gimusi You suggested that you omit the parentheses in the interest of clarity. The parentheses are, indeed, often omitted. This does not mean that it is more clear. Personally, I would always advise students to retain the parentheses. This emphasizes that $sin$ is a function which takes an argument. I would also suggest that students use the notation $sin(x)^2$ rather than $sin^2(x)$, as $sin^2(x)$ can be interpreted to mean $sin(sin(x))$, and is ambiguous when the inverse trig functions show up.
    – Xander Henderson
    Nov 22 at 21:05




    2




    2




    If you want to suggest that a student omit the parentheses because it is a common convention (it is) and reduces some visual clutter (this is debatable), great! But justifying it in the name of clarity is, frankly, disingenuous.
    – Xander Henderson
    Nov 22 at 21:08




    If you want to suggest that a student omit the parentheses because it is a common convention (it is) and reduces some visual clutter (this is debatable), great! But justifying it in the name of clarity is, frankly, disingenuous.
    – Xander Henderson
    Nov 22 at 21:08










    up vote
    2
    down vote













    $dfrac{4cos(x)(1-cos(x))-4sin^2(x)}{(1-cos(x))^2}=dfrac{4(cos x-1)}{(1-cos(x))^2}=dfrac{-4}{1-cos(x)}=dfrac{4}{cos(x) - 1}$.



    (Using $sin^2x+cos^2x=1$).






    share|cite|improve this answer



























      up vote
      2
      down vote













      $dfrac{4cos(x)(1-cos(x))-4sin^2(x)}{(1-cos(x))^2}=dfrac{4(cos x-1)}{(1-cos(x))^2}=dfrac{-4}{1-cos(x)}=dfrac{4}{cos(x) - 1}$.



      (Using $sin^2x+cos^2x=1$).






      share|cite|improve this answer

























        up vote
        2
        down vote










        up vote
        2
        down vote









        $dfrac{4cos(x)(1-cos(x))-4sin^2(x)}{(1-cos(x))^2}=dfrac{4(cos x-1)}{(1-cos(x))^2}=dfrac{-4}{1-cos(x)}=dfrac{4}{cos(x) - 1}$.



        (Using $sin^2x+cos^2x=1$).






        share|cite|improve this answer














        $dfrac{4cos(x)(1-cos(x))-4sin^2(x)}{(1-cos(x))^2}=dfrac{4(cos x-1)}{(1-cos(x))^2}=dfrac{-4}{1-cos(x)}=dfrac{4}{cos(x) - 1}$.



        (Using $sin^2x+cos^2x=1$).







        share|cite|improve this answer














        share|cite|improve this answer



        share|cite|improve this answer








        edited Nov 22 at 21:17

























        answered Nov 22 at 20:06









        Yadati Kiran

        1,354418




        1,354418















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