I have a question concerning the possibility to solve functions in R, and doing the same using excel.

However I want to do it with R to show that R is better for my colleagues :)

Here is the equation:



I want to find the b value for P<-0.5. In Excel we can do it by selecting P value column and setting it to 0.5 and then by using the solver parameters function.

I don't know which method is the best? Or any other way to do it?


  • 1
    See packages BB and ktsolve for two examples. Or stats:optim – Carl Witthoft May 16 '15 at 12:07
  • @CarlWitthoft: With your package I get "Unsuccessful convergence" and several warnings: "Function returns a scalar. Function BBoptim or spg is better." Any ideas? Thank you – vonjd Feb 20 '17 at 14:09
  • @vonjd Well, how about follwing the warnings and trying those other functions? Your data are probably near-singular or excessively noisy, and it may take some trials to get an answer (let alone a valid answer) – Carl Witthoft Feb 20 '17 at 14:12
  • @CarlWitthoft: Thank you for the quick response. I tried the above example with your package but it may be ill defined. So BB and ktsolve cannot be used as you suggested in the comment? – vonjd Feb 20 '17 at 14:21
  • If the solution provided by @Ben is correct, you should edit your question to avoid confusion. Thanks. – JASC Feb 1 '19 at 18:10

I have a strong suspicion that your equation was supposed to include -t_pw/f0, not -t_pw*f0, and that t_pw was supposed to be 3.0e-9, not 30e-9.

 Pfun <- function(b,f0=1e-9,t_pw=3.0e-9,
                  c=6.60935546184612) {

Then @Lyzander's uniroot() suggestion works fine:

 u1 <- uniroot(function(x) Pfun(x)-0.5,c(6,10))

The estimated value here is 8.05.


enter image description here

| improve this answer | |

If you want to solve an equation the simplest thing is to do is to use uniroot which is in base-R.


func <- function(b) {
    1-exp((-t_pw)*f0*exp(-a*(1-b/c)^2)) - 0.5

#interval is the range of values of b to look for a solution
#it can be -Inf, Inf
> uniroot(func, interval=c(-1000, 1000), extendInt='yes')
Error in uniroot(func, interval = c(-1000, 1000), extendInt = "yes") : 
  no sign change found in 1000 iterations

As you see above my unitroot function fails. This is because there is no single solution to your equation which is easy to see as well. exp(-0.0000000000030 * <positive number between 0-1>) is practically (very close to) 1 so your equation becomes 1 - 1 - 0.5 = 0 which doesn't hold. You can see the same with a plot as well:

curve(func) #same result for curve(func, from=-1000, to=1000)

enter image description here

In this function the result will be -0.5 for any b.

So one way to do it fast, is uniroot but probably for a different equation.

And a working example:

myfunc2 <- function(x) x - 2 

> uniroot(myfunc2, interval=c(0,10))
[1] 2

[1] 0

[1] 1

[1] NA

[1] 8
| improve this answer | |
  • yes but I can get the solution for b with excel_? – Alexander May 16 '15 at 13:08
  • 2
    Only if you optimise. Solver in excel optimises i.e. finds what value of b minimises or maximises the function. This is totally different to solving an equation. If you want to minimise/maximise then use optim as: optim(1, func, method='Brent', upper=100, lower=1). Optim by default minimises, change the sign of the equation to maximise. Your function in this case is yielding the same result for any b which means that the solution will always be the upper limit. In optim's output $par is the value of b that minimises the function. – LyzandeR May 16 '15 at 13:16
  • yes that one I was looking for optim function. On the other hand b value should be 8.5 but optim(1, func, method='Brent', upper=100, lower=1) gives upper value `100? – Alexander May 16 '15 at 13:35
  • 2
    Your function returns the same value -0.5 for any value of b. Therefore, there is no value that minimises your function. Therefore, optim returns the upper limit as the best solution only because it tries values starting from the lower to the upper limit. It stops when it checks b=100 and since it sees no improvement in finding a minimum it returns that as the optimum value. I don't know why excel would give a result of 8.5 but it makes me think you copied the function in your question wrong. If not maybe excel iterates the values of b in a different way. – LyzandeR May 16 '15 at 13:41
  • thank you for explonation. I checked the function and its exactly same. Maybe yes excel doing it in other way. Thanks anyway. – Alexander May 16 '15 at 13:56

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