ans = 
How to input pi
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How can i enter pi into an equation on matlab?
4 comentarios
Vignesh Shetty
el 6 de Abr. de 2020
Hi Anthony!
Its very easy to get the value of π. As π is a floating point number declare a long variable then assign 'pi' to that long variable you will get the value.
Eg:-
format long
p=pi
Walter Roberson
el 16 de Dic. de 2022
That is what @Geoff Hayes suggested years before. But it does not enter π into the calculation, only an approximation of π
ARSHIYA
el 1 de Feb. de 2025
What is the code for y={sin inv(π/6)}^2
John D'Errico
el 1 de Feb. de 2025
Why not try it? Before you do, why not spend some time with the basic tutorials?
Assuming you want to comute an inverse sine function,
help asin
How do you square something? Well, you already know how to do that. And, as far as entering pi into MATLAB, it already has pi as a variable by defaiult, as you should have learned from reading the answers to this question.
If your question is to compute the sin of the inverse of pi/6, again, you can do so directly. Can you compute the inverse of a fraction? Can you compute the sine of that? Can you compute the square of that result?
help sin
So in either case for your ambiguous question, you solve it by writing it in pieces, in steps, one step at a time until you have your result.
So try it!
Respuesta aceptada
Geoff Hayes
el 20 de Sept. de 2016
Editada: MathWorks Support Team
el 28 de Nov. de 2018
Anthony - use pi which returns the floating-point number nearest the value of π. So in your code, you could do something like
sin(pi)
1 comentario
Walter Roberson
el 16 de Dic. de 2022
Más respuestas (6)
Essam Aljahmi
el 31 de Mayo de 2018
Editada: Walter Roberson
el 31 de Mayo de 2018
28t2e−0.3466tcos(0.6πt+π3)ua(t).
5 comentarios
Walter Roberson
el 31 de Mayo de 2018
Editada: Walter Roberson
el 31 de Mayo de 2018
Guessing a number of times about what that is intended to mean:
28 * t.^2 .* exp(−0.3466 .* t .* cos(0.6 .* pi .* t + pi/3) .* ua(t))
James Tursa
el 31 de Mayo de 2018
How is this answer relevant?
Roger Pou
el 20 de Oct. de 2018
because it is maybe a joke. maybe its the same value as pi but with a long formula.
Image Analyst
el 20 de Oct. de 2018
Attached is code to compute Ramanujan's formula for pi, voted the ugliest formula of all time.
.
Actually I think it's amazing that something analytical that complicated and with a variety of operations (addition, division, multiplication, factorial, square root, exponentiation, and summation) could create something as "simple" as pi.
Unfortunately it seems to get to within MATLAB's precision after just one iteration - I'd have like to see how it converges as afunction of iteration (summation term). (Hint: help would be appreciated.)
John D'Errico
el 28 de Nov. de 2018
Editada: John D'Errico
el 28 de Nov. de 2018
As I recall, these approximations tend to give a roughly fixed number of digits per term. I'll do it using HPF, but syms would also work.
DefaultNumberOfDigits 500
n = 10;
piterms = zeros(n+1,1,'hpf');
f = sqrt(hpf(2))*2/9801*hpf(factorial(0));
piterms(1) = f*1103;
hpf396 = hpf(396)^4;
for k = 1:n
hpfk = hpf(k);
f = f*(4*hpfk-3)*(4*hpfk-2)*(4*hpfk-1)*4/(hpfk^3)/hpf396;
piterms(k+1) = f*(1103 + 26390*hpfk);
end
piapprox = 1./cumsum(piterms);
pierror = double(hpf('pi') - piapprox))
pierror =
-7.6424e-08
-6.3954e-16
-5.6824e-24
-5.2389e-32
-4.9442e-40
-4.741e-48
-4.5989e-56
-4.5e-64
-4.4333e-72
-4.3915e-80
-4.3696e-88
So roughly 8 digits per term in this series. Resetting the default number of digits to used to 1000, then n=125, so a total of 126 terms in the series, we can pretty quickly get a 1000 digit approximation to pi:
pierror = hpf('pi') - piapprox(end + [-3:0])
pierror =
HPF array of size: 4 1
|1,1| -1.2060069282720814803655e-982
|2,1| -1.25042729756426e-990
|3,1| -1.296534e-998
|4,1| -8.e-1004
So as you see, it generates a very reliable 8 digits per term in the sum.
piapprox(end)
ans =
3.141592653589793238462643383279502884197169399375105820974944592307816406286208998628034825342117067982148086513282306647093844609550582231725359408128481117450284102701938521105559644622948954930381964428810975665933446128475648233786783165271201909145648566923460348610454326648213393607260249141273724587006606315588174881520920962829254091715364367892590360011330530548820466521384146951941511609433057270365759591953092186117381932611793105118548074462379962749567351885752724891227938183011949129833673362440656643086021394946395224737190702179860943702770539217176293176752384674818467669405132000568127145263560827785771342757789609173637178721468440901224953430146549585371050792279689258923542019956112129021960864034418159813629774771309960518707211349999998372978049951059731732816096318595024459455346908302642522308253344685035261931188171010003137838752886587533208381420617177669147303598253490428755468731159562863882353787593751957781857780532171226806613001927876611195909216420199
hpf('pi')
ans =
3.141592653589793238462643383279502884197169399375105820974944592307816406286208998628034825342117067982148086513282306647093844609550582231725359408128481117450284102701938521105559644622948954930381964428810975665933446128475648233786783165271201909145648566923460348610454326648213393607260249141273724587006606315588174881520920962829254091715364367892590360011330530548820466521384146951941511609433057270365759591953092186117381932611793105118548074462379962749567351885752724891227938183011949129833673362440656643086021394946395224737190702179860943702770539217176293176752384674818467669405132000568127145263560827785771342757789609173637178721468440901224953430146549585371050792279689258923542019956112129021960864034418159813629774771309960518707211349999998372978049951059731732816096318595024459455346908302642522308253344685035261931188171010003137838752886587533208381420617177669147303598253490428755468731159562863882353787593751957781857780532171226806613001927876611195909216420199
I also ran it for 100000 digits, so 12500 terms. It took a little more time, but was entirely possible to compute. I don't recall which similar approximation I used some time ago, but I once used it to compute 1 million or so digits of pi in HPF. HPF currently stores a half million digits as I recall.
As far as understanding how to derive that series, I would leave that to Ramanujan, and only hope he is listening on on this.
Walter Roberson
el 20 de Oct. de 2018
1 voto
If you are constructing an equation using the symbolic toolbox use sym('pi')
3 comentarios
MATLAB changed the rules in R2020a (I think it was). sym('pi') now creates a symbolic variable named pi that is nothing special. To create the symbolic π now, you should use
sym(pi)
and count on the fact that sym() recognizes values "close" to pi as being π
James Emmanuelle Galvan
el 22 de Oct. de 2021
sym(pi) prints out "pi".
That's correct. There are four different conversion techniques the sym function uses to determine how to convert a number into a symbolic expression. The default is the 'r' flag which as the documentation states "converts floating-point numbers obtained by evaluating expressions of the form p/q, p*pi/q, sqrt(p), 2^q, and 10^q (for modest sized integers p and q) to the corresponding symbolic form."
The value returned by the pi function is "close enough" to p*pi/q (with p and q both equal to 1) for that conversion technique to recognize it as π. If you wanted the numeric value of the symbolic π to some number of decimal places use vpa.
p = sym(pi)
vpa(p, 30)
Dmitry Volkov
el 16 de Dic. de 2022
0 votos
Easy way:
format long
p = pi
1 comentario
Walter Roberson
el 16 de Dic. de 2022
That is what @Geoff Hayes suggested years before. But it does not enter π into the calculation, only an approximation of π
AKHIL TONY
el 1 de Ag. de 2023
0 votos
using pi will give an approximate value
1 comentario
Walter Roberson
el 1 de Ag. de 2023
Yes, multiple people pointed that out years ago
Meghpara
el 27 de Jul. de 2024
0 votos
it is easy to ge pi
in p=PI.
1 comentario
p=PI
If you meant
p=pi
then @Vignesh Shetty suggested exactly that https://www.mathworks.com/matlabcentral/answers/303687-how-to-input-pi#comment_822235 several years ago, which in turn is functionally equivalent to what @Geoff Hayes suggested in 2016 https://www.mathworks.com/matlabcentral/answers/303687-how-to-input-pi#answer_235320
NASARI
el 30 de Sept. de 2025
0 votos
How can I type pi square in matlab
1 comentario
pi.^2
sym(pi).^2
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