First of all, it may be helpful to note that none of the things you have defined is a function - `eagerFunc`

and `theValue`

are values of type `int`

and `lazyFunc`

is a value of type `Lazy<int>`

. Given

```
let lazyTwo = lazy (1 + 1)
```

and

```
let eagerTwo = 1 + 1
```

the expression `1 + 1`

will **not** be evaluated more than once no matter how many times you use `eagerTwo`

. The difference is that `1 + 1`

will be evaluated *exactly* once when *defining* `eagerTwo`

, but will be evaluated *at most* once when `lazyTwo`

is *used* (it will be evaluated the first time that the `Value`

property is accessed, and then cached so that further uses of `Value`

do not need to recalculated it). If `lazyTwo`

's `Value`

is never accessed, then its body `1 + 1`

will *never* be evaluated.

Typically, you won't see much benefit to using lazy values in a strict language like F#. They add a small amount of overhead since accessing the `Value`

property requires checking whether the value has already been calculated. They might save you a bit of calculation if you have something like `let lazyValue = lazy someVeryExpensiveCalculationThatMightNotBeNeeded()`

, since the expensive calculation will only take place if the value is actually used. They can also make some algorithms terminate which otherwise would not, but this is not a major issue in F#. For instance:

```
// throws an exception if x = 0.0
let eagerDivision x =
let oneOverX = 1.0 / x
if x = 0.0 then
printfn "Tried to divide by zero" // too late, this line is never reached
else
printfn "One over x is: %f" oneOverX
// succeeds even if x = 0.0, since the quotient is lazily evaluated
let lazyDivision x =
let oneOverX = lazy (1.0 / x)
if x = 0.0 then
printfn "Tried to divide by zero"
else
printfn "One over x is: %f" oneOverX.Value
```