Struct uom::si::radioactivity::becquerel
source · pub struct becquerel;
Expand description
The becquerel is one decay per second.
Trait Implementations§
source§impl Conversion<BigInt> for becquerel
impl Conversion<BigInt> for becquerel
source§fn coefficient() -> Self::T
fn coefficient() -> Self::T
Coefficient portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the multiplicative identity (Self::T::one()
) if
no coefficient exists.source§fn constant(op: ConstantOp) -> Self::T
fn constant(op: ConstantOp) -> Self::T
Constant portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the additive identity (Self::T::zero()
) if no
constant exists. See ConstantOp documentation for details about
parameter use to ensure the method optimizes correctly.source§fn conversion(&self) -> Self::Twhere
Self: Sized,
fn conversion(&self) -> Self::Twhere Self: Sized,
Instance conversion factor. Read more
source§impl Conversion<BigUint> for becquerel
impl Conversion<BigUint> for becquerel
source§fn coefficient() -> Self::T
fn coefficient() -> Self::T
Coefficient portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the multiplicative identity (Self::T::one()
) if
no coefficient exists.source§fn constant(op: ConstantOp) -> Self::T
fn constant(op: ConstantOp) -> Self::T
Constant portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the additive identity (Self::T::zero()
) if no
constant exists. See ConstantOp documentation for details about
parameter use to ensure the method optimizes correctly.source§fn conversion(&self) -> Self::Twhere
Self: Sized,
fn conversion(&self) -> Self::Twhere Self: Sized,
Instance conversion factor. Read more
source§impl Conversion<Ratio<BigInt>> for becquerel
impl Conversion<Ratio<BigInt>> for becquerel
source§fn coefficient() -> Self::T
fn coefficient() -> Self::T
Coefficient portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the multiplicative identity (Self::T::one()
) if
no coefficient exists.source§fn constant(op: ConstantOp) -> Self::T
fn constant(op: ConstantOp) -> Self::T
Constant portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the additive identity (Self::T::zero()
) if no
constant exists. See ConstantOp documentation for details about
parameter use to ensure the method optimizes correctly.source§fn conversion(&self) -> Self::Twhere
Self: Sized,
fn conversion(&self) -> Self::Twhere Self: Sized,
Instance conversion factor. Read more
source§impl Conversion<Ratio<i32>> for becquerel
impl Conversion<Ratio<i32>> for becquerel
source§fn coefficient() -> Self::T
fn coefficient() -> Self::T
Coefficient portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the multiplicative identity (Self::T::one()
) if
no coefficient exists.source§fn constant(op: ConstantOp) -> Self::T
fn constant(op: ConstantOp) -> Self::T
Constant portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the additive identity (Self::T::zero()
) if no
constant exists. See ConstantOp documentation for details about
parameter use to ensure the method optimizes correctly.source§fn conversion(&self) -> Self::Twhere
Self: Sized,
fn conversion(&self) -> Self::Twhere Self: Sized,
Instance conversion factor. Read more
source§impl Conversion<Ratio<i64>> for becquerel
impl Conversion<Ratio<i64>> for becquerel
source§fn coefficient() -> Self::T
fn coefficient() -> Self::T
Coefficient portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the multiplicative identity (Self::T::one()
) if
no coefficient exists.source§fn constant(op: ConstantOp) -> Self::T
fn constant(op: ConstantOp) -> Self::T
Constant portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the additive identity (Self::T::zero()
) if no
constant exists. See ConstantOp documentation for details about
parameter use to ensure the method optimizes correctly.source§fn conversion(&self) -> Self::Twhere
Self: Sized,
fn conversion(&self) -> Self::Twhere Self: Sized,
Instance conversion factor. Read more
source§impl Conversion<Ratio<isize>> for becquerel
impl Conversion<Ratio<isize>> for becquerel
source§fn coefficient() -> Self::T
fn coefficient() -> Self::T
Coefficient portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the multiplicative identity (Self::T::one()
) if
no coefficient exists.source§fn constant(op: ConstantOp) -> Self::T
fn constant(op: ConstantOp) -> Self::T
Constant portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the additive identity (Self::T::zero()
) if no
constant exists. See ConstantOp documentation for details about
parameter use to ensure the method optimizes correctly.source§fn conversion(&self) -> Self::Twhere
Self: Sized,
fn conversion(&self) -> Self::Twhere Self: Sized,
Instance conversion factor. Read more
source§impl Conversion<f32> for becquerel
impl Conversion<f32> for becquerel
source§fn coefficient() -> Self::T
fn coefficient() -> Self::T
Coefficient portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the multiplicative identity (Self::T::one()
) if
no coefficient exists.source§fn constant(op: ConstantOp) -> Self::T
fn constant(op: ConstantOp) -> Self::T
Constant portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the additive identity (Self::T::zero()
) if no
constant exists. See ConstantOp documentation for details about
parameter use to ensure the method optimizes correctly.source§fn conversion(&self) -> Self::Twhere
Self: Sized,
fn conversion(&self) -> Self::Twhere Self: Sized,
Instance conversion factor. Read more
source§impl Conversion<f64> for becquerel
impl Conversion<f64> for becquerel
source§fn coefficient() -> Self::T
fn coefficient() -> Self::T
Coefficient portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the multiplicative identity (Self::T::one()
) if
no coefficient exists.source§fn constant(op: ConstantOp) -> Self::T
fn constant(op: ConstantOp) -> Self::T
Constant portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the additive identity (Self::T::zero()
) if no
constant exists. See ConstantOp documentation for details about
parameter use to ensure the method optimizes correctly.source§fn conversion(&self) -> Self::Twhere
Self: Sized,
fn conversion(&self) -> Self::Twhere Self: Sized,
Instance conversion factor. Read more
source§impl Conversion<i32> for becquerel
impl Conversion<i32> for becquerel
source§fn coefficient() -> Self::T
fn coefficient() -> Self::T
Coefficient portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the multiplicative identity (Self::T::one()
) if
no coefficient exists.source§fn constant(op: ConstantOp) -> Self::T
fn constant(op: ConstantOp) -> Self::T
Constant portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the additive identity (Self::T::zero()
) if no
constant exists. See ConstantOp documentation for details about
parameter use to ensure the method optimizes correctly.source§fn conversion(&self) -> Self::Twhere
Self: Sized,
fn conversion(&self) -> Self::Twhere Self: Sized,
Instance conversion factor. Read more
source§impl Conversion<i64> for becquerel
impl Conversion<i64> for becquerel
source§fn coefficient() -> Self::T
fn coefficient() -> Self::T
Coefficient portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the multiplicative identity (Self::T::one()
) if
no coefficient exists.source§fn constant(op: ConstantOp) -> Self::T
fn constant(op: ConstantOp) -> Self::T
Constant portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the additive identity (Self::T::zero()
) if no
constant exists. See ConstantOp documentation for details about
parameter use to ensure the method optimizes correctly.source§fn conversion(&self) -> Self::Twhere
Self: Sized,
fn conversion(&self) -> Self::Twhere Self: Sized,
Instance conversion factor. Read more
source§impl Conversion<isize> for becquerel
impl Conversion<isize> for becquerel
source§fn coefficient() -> Self::T
fn coefficient() -> Self::T
Coefficient portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the multiplicative identity (Self::T::one()
) if
no coefficient exists.source§fn constant(op: ConstantOp) -> Self::T
fn constant(op: ConstantOp) -> Self::T
Constant portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the additive identity (Self::T::zero()
) if no
constant exists. See ConstantOp documentation for details about
parameter use to ensure the method optimizes correctly.source§fn conversion(&self) -> Self::Twhere
Self: Sized,
fn conversion(&self) -> Self::Twhere Self: Sized,
Instance conversion factor. Read more
source§impl Conversion<u32> for becquerel
impl Conversion<u32> for becquerel
source§fn coefficient() -> Self::T
fn coefficient() -> Self::T
Coefficient portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the multiplicative identity (Self::T::one()
) if
no coefficient exists.source§fn constant(op: ConstantOp) -> Self::T
fn constant(op: ConstantOp) -> Self::T
Constant portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the additive identity (Self::T::zero()
) if no
constant exists. See ConstantOp documentation for details about
parameter use to ensure the method optimizes correctly.source§fn conversion(&self) -> Self::Twhere
Self: Sized,
fn conversion(&self) -> Self::Twhere Self: Sized,
Instance conversion factor. Read more
source§impl Conversion<u64> for becquerel
impl Conversion<u64> for becquerel
source§fn coefficient() -> Self::T
fn coefficient() -> Self::T
Coefficient portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the multiplicative identity (Self::T::one()
) if
no coefficient exists.source§fn constant(op: ConstantOp) -> Self::T
fn constant(op: ConstantOp) -> Self::T
Constant portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the additive identity (Self::T::zero()
) if no
constant exists. See ConstantOp documentation for details about
parameter use to ensure the method optimizes correctly.source§fn conversion(&self) -> Self::Twhere
Self: Sized,
fn conversion(&self) -> Self::Twhere Self: Sized,
Instance conversion factor. Read more
source§impl Conversion<usize> for becquerel
impl Conversion<usize> for becquerel
source§fn coefficient() -> Self::T
fn coefficient() -> Self::T
Coefficient portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the multiplicative identity (Self::T::one()
) if
no coefficient exists.source§fn constant(op: ConstantOp) -> Self::T
fn constant(op: ConstantOp) -> Self::T
Constant portion of conversion factor for
converting the given unit to the base unit for the quantity:
(value * coefficient()) + constant()
. Implementation should return the additive identity (Self::T::zero()
) if no
constant exists. See ConstantOp documentation for details about
parameter use to ensure the method optimizes correctly.source§fn conversion(&self) -> Self::Twhere
Self: Sized,
fn conversion(&self) -> Self::Twhere Self: Sized,
Instance conversion factor. Read more