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calculus parametric curve length

3

$begingroup$

Find the length of the following parametric curve.

$x  =  5  +  frac92 t^3$ , $y  =  4  +  3 t^{frac92}$ , $0 leq  t leq  2$.

I used integration and after some point I got lost :( Can anyone show me the steps?

calculus parametric

share|cite|improve this question

edited 4 hours ago

Matt A Pelto

2,667621

asked 4 hours ago

McAMcA

224

$endgroup$

• 
  
  
  

  
  

  
  
  
  
  
  

  
  $begingroup$
  Is this $$x=5+frac{9}{2}t^3,y=4+3t^{9/2}$$?
  $endgroup$
  – Dr. Sonnhard Graubner
  4 hours ago
  
  
  

  
  
  
  

add a comment | 

3

$begingroup$

Find the length of the following parametric curve.

$x  =  5  +  frac92 t^3$ , $y  =  4  +  3 t^{frac92}$ , $0 leq  t leq  2$.

I used integration and after some point I got lost :( Can anyone show me the steps?

calculus parametric

share|cite|improve this question

edited 4 hours ago

Matt A Pelto

2,667621

asked 4 hours ago

McAMcA

224

$endgroup$

• 
  
  
  

  
  

  
  
  
  
  
  

  
  $begingroup$
  Is this $$x=5+frac{9}{2}t^3,y=4+3t^{9/2}$$?
  $endgroup$
  – Dr. Sonnhard Graubner
  4 hours ago
  
  
  

  
  
  
  

add a comment | 

$begingroup$

Find the length of the following parametric curve.

$x  =  5  +  frac92 t^3$ , $y  =  4  +  3 t^{frac92}$ , $0 leq  t leq  2$.

I used integration and after some point I got lost :( Can anyone show me the steps?

calculus parametric

share|cite|improve this question

edited 4 hours ago

Matt A Pelto

2,667621

asked 4 hours ago

McAMcA

224

$endgroup$

share|cite|improve this question

edited 4 hours ago

Matt A Pelto

2,667621

asked 4 hours ago

McAMcA

224

share|cite|improve this question

edited 4 hours ago

Matt A Pelto

2,667621

asked 4 hours ago

McAMcA

224

edited 4 hours ago

Matt A Pelto

2,667621

edited 4 hours ago

Matt A Pelto

2,667621

asked 4 hours ago

McAMcA

224

asked 4 hours ago

McAMcA

224

3 Answers
3

active

oldest

votes

2

$begingroup$

Apply the formula for arc length, we get
$$
int_0^2 frac{27{{t}^{2}},sqrt{{{t}^{3}}+1}}{2} dt
$$
Then we make the change of variable $v=t^3+1$ to get
$$
int_1^9 frac 9 2 sqrt{v} dv = 78.
$$

share|cite|improve this answer

answered 4 hours ago

EagleToLearnEagleToLearn

233

New contributor

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

$endgroup$

add a comment | 

2

$begingroup$

begin{aligned}L&=int_0^2 sqrt{frac{729}4t^4+frac{729}4t^7}dt\&=int_0^2sqrt{frac{729}4t^4(1+t^3)}dt\&=frac{27}2int_0^2t^2(1+t^3)^{frac12}dt\&=3(1+t^3)^{frac32}big]_0^2end{aligned}

Made the leap from the third line to the fourth line by recognizing that $F(t)=3(1+t^3)^{frac32}$ is an antiderivative of $f(t)=frac{27}2t^2(1+t^3)^{frac12}$.

share|cite|improve this answer

edited 3 hours ago

answered 4 hours ago

Matt A PeltoMatt A Pelto

2,667621

$endgroup$

add a comment | 

1

$begingroup$

You must use the formula $$int_{0}^{2}sqrt{left(frac{dx}{dt}right)^2+left(frac{dy}{dt}right)^2}dt$$
$$dx=frac{9}{2}3t^2dt$$ and $$dy=3cdot frac{9}{2}t^{7/2}dt$$

share|cite|improve this answer

answered 4 hours ago

Dr. Sonnhard GraubnerDr. Sonnhard Graubner

78.2k42867

$endgroup$

add a comment | 

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2

$begingroup$

Apply the formula for arc length, we get
$$
int_0^2 frac{27{{t}^{2}},sqrt{{{t}^{3}}+1}}{2} dt
$$
Then we make the change of variable $v=t^3+1$ to get
$$
int_1^9 frac 9 2 sqrt{v} dv = 78.
$$

share|cite|improve this answer

answered 4 hours ago

EagleToLearnEagleToLearn

233

New contributor

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

$endgroup$

add a comment | 

2

$begingroup$

Apply the formula for arc length, we get
$$
int_0^2 frac{27{{t}^{2}},sqrt{{{t}^{3}}+1}}{2} dt
$$
Then we make the change of variable $v=t^3+1$ to get
$$
int_1^9 frac 9 2 sqrt{v} dv = 78.
$$

share|cite|improve this answer

answered 4 hours ago

EagleToLearnEagleToLearn

233

New contributor

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

$endgroup$

add a comment | 

$begingroup$

Apply the formula for arc length, we get
$$
int_0^2 frac{27{{t}^{2}},sqrt{{{t}^{3}}+1}}{2} dt
$$
Then we make the change of variable $v=t^3+1$ to get
$$
int_1^9 frac 9 2 sqrt{v} dv = 78.
$$

share|cite|improve this answer

answered 4 hours ago

EagleToLearnEagleToLearn

233

New contributor

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

$endgroup$

share|cite|improve this answer

answered 4 hours ago

EagleToLearnEagleToLearn

233

New contributor

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

answered 4 hours ago

EagleToLearnEagleToLearn

233

New contributor

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

answered 4 hours ago

EagleToLearnEagleToLearn

233

2

$begingroup$

begin{aligned}L&=int_0^2 sqrt{frac{729}4t^4+frac{729}4t^7}dt\&=int_0^2sqrt{frac{729}4t^4(1+t^3)}dt\&=frac{27}2int_0^2t^2(1+t^3)^{frac12}dt\&=3(1+t^3)^{frac32}big]_0^2end{aligned}

Made the leap from the third line to the fourth line by recognizing that $F(t)=3(1+t^3)^{frac32}$ is an antiderivative of $f(t)=frac{27}2t^2(1+t^3)^{frac12}$.

share|cite|improve this answer

edited 3 hours ago

answered 4 hours ago

Matt A PeltoMatt A Pelto

2,667621

$endgroup$

add a comment | 

2

$begingroup$

begin{aligned}L&=int_0^2 sqrt{frac{729}4t^4+frac{729}4t^7}dt\&=int_0^2sqrt{frac{729}4t^4(1+t^3)}dt\&=frac{27}2int_0^2t^2(1+t^3)^{frac12}dt\&=3(1+t^3)^{frac32}big]_0^2end{aligned}

Made the leap from the third line to the fourth line by recognizing that $F(t)=3(1+t^3)^{frac32}$ is an antiderivative of $f(t)=frac{27}2t^2(1+t^3)^{frac12}$.

share|cite|improve this answer

edited 3 hours ago

answered 4 hours ago

Matt A PeltoMatt A Pelto

2,667621

$endgroup$

add a comment | 

$begingroup$

begin{aligned}L&=int_0^2 sqrt{frac{729}4t^4+frac{729}4t^7}dt\&=int_0^2sqrt{frac{729}4t^4(1+t^3)}dt\&=frac{27}2int_0^2t^2(1+t^3)^{frac12}dt\&=3(1+t^3)^{frac32}big]_0^2end{aligned}

Made the leap from the third line to the fourth line by recognizing that $F(t)=3(1+t^3)^{frac32}$ is an antiderivative of $f(t)=frac{27}2t^2(1+t^3)^{frac12}$.

share|cite|improve this answer

edited 3 hours ago

answered 4 hours ago

Matt A PeltoMatt A Pelto

2,667621

$endgroup$

share|cite|improve this answer

edited 3 hours ago

answered 4 hours ago

Matt A PeltoMatt A Pelto

2,667621

answered 4 hours ago

Matt A PeltoMatt A Pelto

2,667621

answered 4 hours ago

Matt A PeltoMatt A Pelto

2,667621

1

$begingroup$

You must use the formula $$int_{0}^{2}sqrt{left(frac{dx}{dt}right)^2+left(frac{dy}{dt}right)^2}dt$$
$$dx=frac{9}{2}3t^2dt$$ and $$dy=3cdot frac{9}{2}t^{7/2}dt$$

share|cite|improve this answer

answered 4 hours ago

Dr. Sonnhard GraubnerDr. Sonnhard Graubner

78.2k42867

$endgroup$

add a comment | 

1

$begingroup$

You must use the formula $$int_{0}^{2}sqrt{left(frac{dx}{dt}right)^2+left(frac{dy}{dt}right)^2}dt$$
$$dx=frac{9}{2}3t^2dt$$ and $$dy=3cdot frac{9}{2}t^{7/2}dt$$

share|cite|improve this answer

answered 4 hours ago

Dr. Sonnhard GraubnerDr. Sonnhard Graubner

78.2k42867

$endgroup$

add a comment | 

$begingroup$

You must use the formula $$int_{0}^{2}sqrt{left(frac{dx}{dt}right)^2+left(frac{dy}{dt}right)^2}dt$$
$$dx=frac{9}{2}3t^2dt$$ and $$dy=3cdot frac{9}{2}t^{7/2}dt$$

share|cite|improve this answer

answered 4 hours ago

Dr. Sonnhard GraubnerDr. Sonnhard Graubner

78.2k42867

$endgroup$

share|cite|improve this answer

answered 4 hours ago

Dr. Sonnhard GraubnerDr. Sonnhard Graubner

78.2k42867

answered 4 hours ago

Dr. Sonnhard GraubnerDr. Sonnhard Graubner

78.2k42867

answered 4 hours ago

Dr. Sonnhard GraubnerDr. Sonnhard Graubner

78.2k42867