///
/// Additionally, `f32` can represent some special values:
///
-/// - -0.0: IEEE 754 floating point numbers have a bit that indicates their sign, so -0.0 is a
-/// possible value. For comparison `-0.0 == +0.0` is true but floating point operations can
-/// carry the sign bit through arithmetic operations. This means `-1.0 * 0.0` produces -0.0 and
-/// a negative number rounded to a value smaller than a float can represent also produces -0.0.
+/// - −0.0: IEEE 754 floating point numbers have a bit that indicates their sign, so −0.0 is a
+/// possible value. For comparison −0.0 = +0.0, but floating point operations can carry
+/// the sign bit through arithmetic operations. This means −0.0 × +0.0 produces −0.0 and
+/// a negative number rounded to a value smaller than a float can represent also produces −0.0.
/// - [∞](#associatedconstant.INFINITY) and
/// [−∞](#associatedconstant.NEG_INFINITY): these result from calculations
/// like `1.0 / 0.0`.