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What exactly color does ozone gas have?
Does ozone (O₃) gas have a color?Does ozone (O₃) gas have a color?Are there any safety guidelines for mixing sulfate with chloride?Does O2 have a color in the gas phaseWhat color is solid methane?Describing the preparation of solutions and determining how many grams are needed to react with a substanceWhat does a molecules color have to do with its bond/orbital energies?Is lithium bicarbonate an aqueous solution of lithium carbonate?Unexpected behavior during preparation of copper hypophosphiteWhat exactly is formed when K2Cr2O7 is reduced?Will UVC light/ozone affects color on fabrics?
$begingroup$
This answer to a now closed question says that ozone gas has a "slight blue" color. But there are lots of blue colors: sky blue, ultramarine, phthalo blue, many others — what is closer to the color of ozone?
This page shows photos of ozone solutions in water, like the one below, but this may not be representative of the color of the gas.
(source)
So, what exactly color does ozone gas have? Is it a single hue, or does it change depending on concentration/amount of ozone?
inorganic-chemistry color
asked 1 hour ago
RuslanRuslan
356113
$endgroup$
add a comment |
$begingroup$
This answer to a now closed question says that ozone gas has a "slight blue" color. But there are lots of blue colors: sky blue, ultramarine, phthalo blue, many others — what is closer to the color of ozone?
This page shows photos of ozone solutions in water, like the one below, but this may not be representative of the color of the gas.
(source)
So, what exactly color does ozone gas have? Is it a single hue, or does it change depending on concentration/amount of ozone?
inorganic-chemistry color
asked 1 hour ago
RuslanRuslan
356113
$endgroup$
add a comment |
$begingroup$
This answer to a now closed question says that ozone gas has a "slight blue" color. But there are lots of blue colors: sky blue, ultramarine, phthalo blue, many others — what is closer to the color of ozone?
This page shows photos of ozone solutions in water, like the one below, but this may not be representative of the color of the gas.
(source)
So, what exactly color does ozone gas have? Is it a single hue, or does it change depending on concentration/amount of ozone?
inorganic-chemistry color
asked 1 hour ago
RuslanRuslan
356113
$endgroup$
This answer to a now closed question says that ozone gas has a "slight blue" color. But there are lots of blue colors: sky blue, ultramarine, phthalo blue, many others — what is closer to the color of ozone?
This page shows photos of ozone solutions in water, like the one below, but this may not be representative of the color of the gas.
(source)
So, what exactly color does ozone gas have? Is it a single hue, or does it change depending on concentration/amount of ozone?
inorganic-chemistry color
inorganic-chemistry color
asked 1 hour ago
RuslanRuslan
356113
asked 1 hour ago
RuslanRuslan
356113
asked 1 hour ago
RuslanRuslan
356113
asked 1 hour ago
RuslanRuslan
356113
asked 1 hour ago
RuslanRuslan
356113
356113
add a comment |
add a comment |
1 Answer
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$begingroup$
Due to Chappuis absorption, ozone does have a bluish color. To determine exactly what kind of blue it is, let's first look at the spectrum of absorption in the Chappuis band. The following plot was done using these data for 293K.
This is spectral cross-section of absorption. To determine color from this spectrum, we need to choose some parameters:
- Number density of ozone molecules,
- Thickness of ozone layer we're trying to visualize,
- Illuminant.
If we denote spectral radiance of our illuminant as $L(lambda)$, thickness of ozone layer as $d$, ozone number density as $rho$, and absorption cross-section as $sigma(lambda)$, then we'll get the following expression for spectral radiance transmitted through the layer:
$$L_T(lambda)=L(lambda)expbig(-sigma(lambda)drhobig).$$
The most sensible illuminant to choose for showing color of a material on the web is the CIE illuminant D65, whose color is the white point of the sRGB color space. Its spectrum can be found e.g. here.
We can find the color in XYZ space using CIE 1931 color matching functions (can be found e.g. here). The expression is
$$c_X=int_300^830L_T(lambda)bar x(lambda),mathrm dlambda,$$
and similarly for $Y$ and $Z$ coordinates. Then these can be transformed to sRGB using linear transformation matrix $mathrmXYZtomathrmsRGB$ given e.g. here and gamma-correcting to $gamma=1/2.2$ to yield final sRGB values.
Then, for ozone molecule number density $rho=10^25 fracmathrmmoleculemathrmm^3$ we'll get the following colors for different layer thicknesses:
For comparison, typical ozone column in the atmospheric ozone layer is about 300 Dobson units, which is equivalent to $2.687times10^20fracmathrmmoleculemathrm m^2$, with our $rho$ chosen above this corresponds to $d=8,mathrmmm$. So for daylight ozone column has negligible effect on the sky color (unlike the evening — see the history of Chappuis absorption!).
As can be seen in the above plot, hue does change with increasing layer thickness. If we normalize the RGB values to see the hues of the thick layers (this would correspond to increasing illuminant power to compensate for absorption), we'll get the following hues:
Note that the violet hues in the above plot aren't accurate: they can't be accurately represented on sRGB monitors, so the plot only approximates them. They should be more saturated. Here's how the chromaticity changes from the white point to the most violet with increasing layer thickness (dashed triangle denotes the sRGB gamut):
answered 1 hour ago
RuslanRuslan
356113
$endgroup$
add a comment |
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$begingroup$
Due to Chappuis absorption, ozone does have a bluish color. To determine exactly what kind of blue it is, let's first look at the spectrum of absorption in the Chappuis band. The following plot was done using these data for 293K.
This is spectral cross-section of absorption. To determine color from this spectrum, we need to choose some parameters:
- Number density of ozone molecules,
- Thickness of ozone layer we're trying to visualize,
- Illuminant.
If we denote spectral radiance of our illuminant as $L(lambda)$, thickness of ozone layer as $d$, ozone number density as $rho$, and absorption cross-section as $sigma(lambda)$, then we'll get the following expression for spectral radiance transmitted through the layer:
$$L_T(lambda)=L(lambda)expbig(-sigma(lambda)drhobig).$$
The most sensible illuminant to choose for showing color of a material on the web is the CIE illuminant D65, whose color is the white point of the sRGB color space. Its spectrum can be found e.g. here.
We can find the color in XYZ space using CIE 1931 color matching functions (can be found e.g. here). The expression is
$$c_X=int_300^830L_T(lambda)bar x(lambda),mathrm dlambda,$$
and similarly for $Y$ and $Z$ coordinates. Then these can be transformed to sRGB using linear transformation matrix $mathrmXYZtomathrmsRGB$ given e.g. here and gamma-correcting to $gamma=1/2.2$ to yield final sRGB values.
Then, for ozone molecule number density $rho=10^25 fracmathrmmoleculemathrmm^3$ we'll get the following colors for different layer thicknesses:
For comparison, typical ozone column in the atmospheric ozone layer is about 300 Dobson units, which is equivalent to $2.687times10^20fracmathrmmoleculemathrm m^2$, with our $rho$ chosen above this corresponds to $d=8,mathrmmm$. So for daylight ozone column has negligible effect on the sky color (unlike the evening — see the history of Chappuis absorption!).
As can be seen in the above plot, hue does change with increasing layer thickness. If we normalize the RGB values to see the hues of the thick layers (this would correspond to increasing illuminant power to compensate for absorption), we'll get the following hues:
Note that the violet hues in the above plot aren't accurate: they can't be accurately represented on sRGB monitors, so the plot only approximates them. They should be more saturated. Here's how the chromaticity changes from the white point to the most violet with increasing layer thickness (dashed triangle denotes the sRGB gamut):
answered 1 hour ago
RuslanRuslan
356113
$endgroup$
add a comment |
$begingroup$
Due to Chappuis absorption, ozone does have a bluish color. To determine exactly what kind of blue it is, let's first look at the spectrum of absorption in the Chappuis band. The following plot was done using these data for 293K.
This is spectral cross-section of absorption. To determine color from this spectrum, we need to choose some parameters:
- Number density of ozone molecules,
- Thickness of ozone layer we're trying to visualize,
- Illuminant.
If we denote spectral radiance of our illuminant as $L(lambda)$, thickness of ozone layer as $d$, ozone number density as $rho$, and absorption cross-section as $sigma(lambda)$, then we'll get the following expression for spectral radiance transmitted through the layer:
$$L_T(lambda)=L(lambda)expbig(-sigma(lambda)drhobig).$$
The most sensible illuminant to choose for showing color of a material on the web is the CIE illuminant D65, whose color is the white point of the sRGB color space. Its spectrum can be found e.g. here.
We can find the color in XYZ space using CIE 1931 color matching functions (can be found e.g. here). The expression is
$$c_X=int_300^830L_T(lambda)bar x(lambda),mathrm dlambda,$$
and similarly for $Y$ and $Z$ coordinates. Then these can be transformed to sRGB using linear transformation matrix $mathrmXYZtomathrmsRGB$ given e.g. here and gamma-correcting to $gamma=1/2.2$ to yield final sRGB values.
Then, for ozone molecule number density $rho=10^25 fracmathrmmoleculemathrmm^3$ we'll get the following colors for different layer thicknesses:
For comparison, typical ozone column in the atmospheric ozone layer is about 300 Dobson units, which is equivalent to $2.687times10^20fracmathrmmoleculemathrm m^2$, with our $rho$ chosen above this corresponds to $d=8,mathrmmm$. So for daylight ozone column has negligible effect on the sky color (unlike the evening — see the history of Chappuis absorption!).
As can be seen in the above plot, hue does change with increasing layer thickness. If we normalize the RGB values to see the hues of the thick layers (this would correspond to increasing illuminant power to compensate for absorption), we'll get the following hues:
Note that the violet hues in the above plot aren't accurate: they can't be accurately represented on sRGB monitors, so the plot only approximates them. They should be more saturated. Here's how the chromaticity changes from the white point to the most violet with increasing layer thickness (dashed triangle denotes the sRGB gamut):
answered 1 hour ago
RuslanRuslan
356113
$endgroup$
add a comment |
$begingroup$
Due to Chappuis absorption, ozone does have a bluish color. To determine exactly what kind of blue it is, let's first look at the spectrum of absorption in the Chappuis band. The following plot was done using these data for 293K.
This is spectral cross-section of absorption. To determine color from this spectrum, we need to choose some parameters:
- Number density of ozone molecules,
- Thickness of ozone layer we're trying to visualize,
- Illuminant.
If we denote spectral radiance of our illuminant as $L(lambda)$, thickness of ozone layer as $d$, ozone number density as $rho$, and absorption cross-section as $sigma(lambda)$, then we'll get the following expression for spectral radiance transmitted through the layer:
$$L_T(lambda)=L(lambda)expbig(-sigma(lambda)drhobig).$$
The most sensible illuminant to choose for showing color of a material on the web is the CIE illuminant D65, whose color is the white point of the sRGB color space. Its spectrum can be found e.g. here.
We can find the color in XYZ space using CIE 1931 color matching functions (can be found e.g. here). The expression is
$$c_X=int_300^830L_T(lambda)bar x(lambda),mathrm dlambda,$$
and similarly for $Y$ and $Z$ coordinates. Then these can be transformed to sRGB using linear transformation matrix $mathrmXYZtomathrmsRGB$ given e.g. here and gamma-correcting to $gamma=1/2.2$ to yield final sRGB values.
Then, for ozone molecule number density $rho=10^25 fracmathrmmoleculemathrmm^3$ we'll get the following colors for different layer thicknesses:
For comparison, typical ozone column in the atmospheric ozone layer is about 300 Dobson units, which is equivalent to $2.687times10^20fracmathrmmoleculemathrm m^2$, with our $rho$ chosen above this corresponds to $d=8,mathrmmm$. So for daylight ozone column has negligible effect on the sky color (unlike the evening — see the history of Chappuis absorption!).
As can be seen in the above plot, hue does change with increasing layer thickness. If we normalize the RGB values to see the hues of the thick layers (this would correspond to increasing illuminant power to compensate for absorption), we'll get the following hues:
Note that the violet hues in the above plot aren't accurate: they can't be accurately represented on sRGB monitors, so the plot only approximates them. They should be more saturated. Here's how the chromaticity changes from the white point to the most violet with increasing layer thickness (dashed triangle denotes the sRGB gamut):
answered 1 hour ago
RuslanRuslan
356113
$endgroup$
Due to Chappuis absorption, ozone does have a bluish color. To determine exactly what kind of blue it is, let's first look at the spectrum of absorption in the Chappuis band. The following plot was done using these data for 293K.
This is spectral cross-section of absorption. To determine color from this spectrum, we need to choose some parameters:
- Number density of ozone molecules,
- Thickness of ozone layer we're trying to visualize,
- Illuminant.
If we denote spectral radiance of our illuminant as $L(lambda)$, thickness of ozone layer as $d$, ozone number density as $rho$, and absorption cross-section as $sigma(lambda)$, then we'll get the following expression for spectral radiance transmitted through the layer:
$$L_T(lambda)=L(lambda)expbig(-sigma(lambda)drhobig).$$
The most sensible illuminant to choose for showing color of a material on the web is the CIE illuminant D65, whose color is the white point of the sRGB color space. Its spectrum can be found e.g. here.
We can find the color in XYZ space using CIE 1931 color matching functions (can be found e.g. here). The expression is
$$c_X=int_300^830L_T(lambda)bar x(lambda),mathrm dlambda,$$
and similarly for $Y$ and $Z$ coordinates. Then these can be transformed to sRGB using linear transformation matrix $mathrmXYZtomathrmsRGB$ given e.g. here and gamma-correcting to $gamma=1/2.2$ to yield final sRGB values.
Then, for ozone molecule number density $rho=10^25 fracmathrmmoleculemathrmm^3$ we'll get the following colors for different layer thicknesses:
For comparison, typical ozone column in the atmospheric ozone layer is about 300 Dobson units, which is equivalent to $2.687times10^20fracmathrmmoleculemathrm m^2$, with our $rho$ chosen above this corresponds to $d=8,mathrmmm$. So for daylight ozone column has negligible effect on the sky color (unlike the evening — see the history of Chappuis absorption!).
As can be seen in the above plot, hue does change with increasing layer thickness. If we normalize the RGB values to see the hues of the thick layers (this would correspond to increasing illuminant power to compensate for absorption), we'll get the following hues:
Note that the violet hues in the above plot aren't accurate: they can't be accurately represented on sRGB monitors, so the plot only approximates them. They should be more saturated. Here's how the chromaticity changes from the white point to the most violet with increasing layer thickness (dashed triangle denotes the sRGB gamut):
answered 1 hour ago
RuslanRuslan
356113
answered 1 hour ago
RuslanRuslan
356113
answered 1 hour ago
RuslanRuslan
356113
answered 1 hour ago
RuslanRuslan
356113
356113
add a comment |
add a comment |
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