times
Sort Length before Time which is conventional.
operator fun <A : Units, B : Units> InverseUnits<A>.times(other: B): UnitsRatio<B, A>(source)(source)
operator fun <A : Units, B : Units> Measure<A>.times(other: Measure<B>): Measure<UnitsProduct<A, B>>(source)
operator fun <A : Units, B : Units> Measure<A>.times(other: Measure<UnitsRatio<B, A>>): Measure<B>(source)
operator fun <A : Units, B : Units> Measure<A>.times(other: Measure<InverseUnits<B>>): Measure<UnitsRatio<A, B>>(source)(source)
operator fun <A : Units, B : Units> Measure<UnitsRatio<A, B>>.times(other: Measure<B>): Measure<A>(source)
operator fun <A : Units, B : Units> Measure<UnitsRatio<A, B>>.times(other: Measure<UnitsRatio<A, B>>): Measure<UnitsRatio<UnitsProduct<A, A>, UnitsProduct<B, B>>>(source)
operator fun <A : Units, B : Units, C : Units> Measure<UnitsRatio<A, UnitsProduct<B, C>>>.times(other: Measure<B>): Measure<UnitsRatio<A, C>>(source)(source)
operator fun <A : Units, B : Units, C : Units, D : Units> Measure<UnitsRatio<A, UnitsProduct<B, C>>>.times(other: Measure<D>): Measure<UnitsRatio<UnitsProduct<A, D>, UnitsProduct<B, C>>>(source)(source)
operator fun <A : Units> Measure<A>.times(other: Measure<InverseUnits<Square<A>>>): Measure<InverseUnits<A>>(source)
operator fun <A : Units> Measure<InverseUnits<Square<A>>>.times(other: Measure<A>): Measure<InverseUnits<A>>(source)
operator fun <A : Units> Measure<InverseUnits<A>>.times(other: Measure<InverseUnits<A>>): Measure<InverseUnits<Square<A>>>(source)
operator fun <A : Units, B : Units> Measure<InverseUnits<A>>.times(other: B): Measure<UnitsRatio<B, A>>(source)(source)
operator fun <A : Units, B : Units> Measure<A>.times(other: InverseUnits<B>): Measure<UnitsRatio<A, B>>(source)(source)
operator fun <A : Units, B : Units> Measure<UnitsRatio<A, B>>.times(other: UnitsRatio<A, B>): Measure<UnitsRatio<UnitsProduct<A, A>, UnitsProduct<B, B>>>(source)
operator fun <A : Units, B : Units, C : Units> Measure<UnitsRatio<A, UnitsProduct<B, C>>>.times(other: B): Measure<UnitsRatio<A, C>>(source)(source)
operator fun <A : Units, B : Units, C : Units, D : Units> Measure<UnitsRatio<A, UnitsProduct<B, C>>>.times(other: D): Measure<UnitsRatio<UnitsProduct<A, D>, UnitsProduct<B, C>>>(source)(source)
A * B
operator fun <A : Units, B : Units> A.times(other: InverseUnits<B>): UnitsRatio<A, B>(source)(source)
A * (1 / B)
A * (1 / A^2)
A * (B / A)
(A / B) * B
operator fun <A : Units, B : Units, C : Units> UnitsRatio<A, UnitsProduct<B, C>>.times(other: B): Measure<UnitsRatio<A, C>>(source)(source)
(A / (B * C)) * B
operator fun <A : Units, B : Units, C : Units, D : Units> UnitsRatio<A, UnitsProduct<B, C>>.times(other: D): UnitsRatio<UnitsProduct<A, D>, UnitsProduct<B, C>>(source)(source)
(A / (B * C)) * D)
operator fun <A : Units, B : Units> UnitsRatio<A, B>.times(other: UnitsRatio<A, B>): UnitsRatio<UnitsProduct<A, A>, UnitsProduct<B, B>>(source)(source)(source)
(A / B) * (A / B)
operator fun <A : Units, B : Units> UnitsRatio<A, B>.times(other: UnitsRatio<B, A>): Double(source)(source)(source)
(A / B) * (B / A))
operator fun <A : Units, B : Units, C : Units, D : Units> UnitsRatio<A, B>.times(other: UnitsRatio<C, D>): UnitsRatio<UnitsProduct<A, C>, UnitsProduct<B, D>>(source)(source)(source)
(A / B) * (C / D))