diff --git a/stdlib/LinearAlgebra/src/LinearAlgebra.jl b/stdlib/LinearAlgebra/src/LinearAlgebra.jl
index 7b3ff8f0db53d..2557a207455a7 100644
--- a/stdlib/LinearAlgebra/src/LinearAlgebra.jl
+++ b/stdlib/LinearAlgebra/src/LinearAlgebra.jl
@@ -299,17 +299,8 @@ julia> Y = zero(X);
 
 julia> ldiv!(Y, qr(A), X);
 
-julia> Y
-3-element Vector{Float64}:
-  0.7128099173553719
- -0.051652892561983674
-  0.10020661157024757
-
-julia> A\\X
-3-element Vector{Float64}:
-  0.7128099173553719
- -0.05165289256198333
-  0.10020661157024785
+julia> Y ≈ A\\X
+true
 ```
 """
 ldiv!(Y, A, B)
@@ -340,17 +331,8 @@ julia> Y = copy(X);
 
 julia> ldiv!(qr(A), X);
 
-julia> X
-3-element Vector{Float64}:
-  0.7128099173553719
- -0.051652892561983674
-  0.10020661157024757
-
-julia> A\\Y
-3-element Vector{Float64}:
-  0.7128099173553719
- -0.05165289256198333
-  0.10020661157024785
+julia> X ≈ A\\Y
+true
 ```
 """
 ldiv!(A, B)
diff --git a/stdlib/LinearAlgebra/src/hessenberg.jl b/stdlib/LinearAlgebra/src/hessenberg.jl
index 6f5efd1c42d16..8dc4b4896d60a 100644
--- a/stdlib/LinearAlgebra/src/hessenberg.jl
+++ b/stdlib/LinearAlgebra/src/hessenberg.jl
@@ -440,7 +440,7 @@ This is useful because multiple shifted solves `(F + μ*I) \\ b`
 Iterating the decomposition produces the factors `F.Q, F.H, F.μ`.
 
 # Examples
-```jldoctest
+```julia-repl
 julia> A = [4. 9. 7.; 4. 4. 1.; 4. 3. 2.]
 3×3 Matrix{Float64}:
  4.0  9.0  7.0