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vivek_jonam
vivek_jonam
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The Exposure value can be calculated with the given Aperture and shutter speed using the following formula:
enter image description here (src: wikipedia)
where,
N: Aperture value
t: Shutter Speed

The above EV is for ISO 100 called as EV100. EV For subsequent ISO values is calulated with help of EV100 using the following formula:
enter image description here
where,
EV100: EV from the first formula
S : required ISO value

The Exposure compensation works by adding or subtracting the required Exposure compensation value with the current EV to get the new EV.
This new EV can be reverse engineered with the above formulas to get the Aperture and Shutter speeds.

Applying the values you have given:

EV100 = 7.32  //At ISO 100
EV1000 = 7.32 + 3.32 = 10.64  //At ISO 1000

On applying Exposure Compensation of 0.33:

EV(new) = 10.62 +0.33 = 10.95

Now reverse engineer this value to get N and t accordingly.

The Exposure value can be calculated with the given Aperture and shutter speed using the following formula:
enter image description here (src: wikipedia)
where,
N: Aperture value
t: Shutter Speed

The above EV is for ISO 100 called as EV100. EV For subsequent ISO values is calulated with help of EV100 using the following formula:
enter image description here
where,
EV100: EV from the first formula
S : required ISO value

The Exposure compensation works by adding or subtracting the required Exposure compensation value with the current EV to get the new EV.
This new EV can be reverse engineered with the above formulas to get the Aperture and Shutter speeds.

Applying the values you have given:

EV100 = 7.32  //At ISO 100
EV1000 = 7.32 + 3.32 = 10.64  //At ISO 1000

On applying Exposure Compensation of 0.33:

EV(new) = 10.62 +0.33 = 10.95

Now reverse engineer this value to get N and t accordingly

The Exposure value can be calculated with the given Aperture and shutter speed using the following formula:
enter image description here (src: wikipedia)
where,
N: Aperture value
t: Shutter Speed

The above EV is for ISO 100 called as EV100. EV For subsequent ISO values is calulated with help of EV100 using the following formula:
enter image description here
where,
EV100: EV from the first formula
S : required ISO value

The Exposure compensation works by adding or subtracting the required Exposure compensation value with the current EV to get the new EV.
This new EV can be reverse engineered with the above formulas to get the Aperture and Shutter speeds.

Applying the values you have given:

EV100 = 7.32  //At ISO 100
EV1000 = 7.32 + 3.32 = 10.64  //At ISO 1000

On applying Exposure Compensation of 0.33:

EV(new) = 10.62 +0.33 = 10.95

Now reverse engineer this value to get N and t accordingly.

added 299 characters in body
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vivek_jonam
vivek_jonam
  • 3.5k
  • 7
  • 35
  • 59

The Exposure value can be calculated with the given Aperture and shutter speed using the following formula:
enter image description here (src: wikipedia)
where,
N: Aperture value
t: Shutter Speed

The above EV is for ISO 100 called as EV100. EV For subsequent ISO values is calulated with help of EV100 using the following formula:
enter image description here
where,
EV100: EV from the first formula
S : required ISO value

The Exposure compensation works by adding or subtracting the required Exposure compensation value with the current EV to get the new EV.
This new EV can be reverse engineered with the above formulas to get the Aperture and Shutter speeds.

Applying the values you have given:

EV100 = 7.32  //At ISO 100
EV1000 = 7.32 + 3.32 = 10.64  //At ISO 1000

On applying Exposure Compensation of 0.33:

EV(new) = 10.62 +0.33 = 10.95

Now reverse engineering:
enter image description here =engineer this value to get N and t accordingly

The Exposure value can be calculated with the given Aperture and shutter speed using the following formula:
enter image description here (src: wikipedia)
where,
N: Aperture value
t: Shutter Speed

The above EV is for ISO 100 called as EV100. EV For subsequent ISO values is calulated with help of EV100 using the following formula:
enter image description here
where,
EV100: EV from the first formula
S : required ISO value

The Exposure compensation works by adding or subtracting the required Exposure compensation value with the current EV to get the new EV.
This new EV can be reverse engineered with the above formulas to get the Aperture and Shutter speeds.

Applying the values you have given:

EV100 = 7.32  //At ISO 100
EV1000 = 7.32 + 3.32 = 10.64  //At ISO 1000

On applying Exposure Compensation of 0.33:

EV(new) = 10.62 +0.33 = 10.95

Now reverse engineering:
enter image description here =

The Exposure value can be calculated with the given Aperture and shutter speed using the following formula:
enter image description here (src: wikipedia)
where,
N: Aperture value
t: Shutter Speed

The above EV is for ISO 100 called as EV100. EV For subsequent ISO values is calulated with help of EV100 using the following formula:
enter image description here
where,
EV100: EV from the first formula
S : required ISO value

The Exposure compensation works by adding or subtracting the required Exposure compensation value with the current EV to get the new EV.
This new EV can be reverse engineered with the above formulas to get the Aperture and Shutter speeds.

Applying the values you have given:

EV100 = 7.32  //At ISO 100
EV1000 = 7.32 + 3.32 = 10.64  //At ISO 1000

On applying Exposure Compensation of 0.33:

EV(new) = 10.62 +0.33 = 10.95

Now reverse engineer this value to get N and t accordingly

added 299 characters in body
Source Link
vivek_jonam
vivek_jonam
  • 3.5k
  • 7
  • 35
  • 59

The Exposure value can be calculated with the given Aperture and shutter speed using the following formula:
enter image description here (src: wikipedia)
where,
N: Aperture value
t: Shutter Speed

The above EV is for ISO 100 called as EV100. EV For subsequent ISO values is calulated with help of EV100 using the following formula:
enter image description here
where,
EV100: EV from the first formula
S : required ISO value

The Exposure compensation works by adding or subtracting the required Exposure compensation value with the current EV to get the new EV.
This new EV can be reverse engineered with the above formulas to get the Aperture and Shutter speeds.

Applying the values you have given:

EV100 = 27.2032  //At ISO 100
EV1000 = 7.32 + 3.2032 = 10.64  //At ISO 1000

On applying Exposure Compensation of 0.33:

EV(new) = 310.2062 +0.33 = 310.5395

Now reverse engineering:
enter image description here =

The Exposure value can be calculated with the given Aperture and shutter speed using the following formula:
enter image description here (src: wikipedia)
where,
N: Aperture value
t: Shutter Speed

The above EV is for ISO 100 called as EV100. EV For subsequent ISO values is calulated with help of EV100 using the following formula:
enter image description here
where,
EV100: EV from the first formula
S : required ISO value

The Exposure compensation works by adding or subtracting the required Exposure compensation value with the current EV to get the new EV.
This new EV can be reverse engineered with the above formulas to get the Aperture and Shutter speeds.

Applying the values you have given:

EV100 = 2.20  //At ISO 100
EV1000 = 3.20  //At ISO 1000

On applying Exposure Compensation of 0.33:

EV(new) = 3.20 +0.33 = 3.53

The Exposure value can be calculated with the given Aperture and shutter speed using the following formula:
enter image description here (src: wikipedia)
where,
N: Aperture value
t: Shutter Speed

The above EV is for ISO 100 called as EV100. EV For subsequent ISO values is calulated with help of EV100 using the following formula:
enter image description here
where,
EV100: EV from the first formula
S : required ISO value

The Exposure compensation works by adding or subtracting the required Exposure compensation value with the current EV to get the new EV.
This new EV can be reverse engineered with the above formulas to get the Aperture and Shutter speeds.

Applying the values you have given:

EV100 = 7.32  //At ISO 100
EV1000 = 7.32 + 3.32 = 10.64  //At ISO 1000

On applying Exposure Compensation of 0.33:

EV(new) = 10.62 +0.33 = 10.95

Now reverse engineering:
enter image description here =

added 299 characters in body
Source Link
vivek_jonam
vivek_jonam
  • 3.5k
  • 7
  • 35
  • 59
added 299 characters in body
Source Link
vivek_jonam
vivek_jonam
  • 3.5k
  • 7
  • 35
  • 59
added 299 characters in body
Source Link
vivek_jonam
vivek_jonam
  • 3.5k
  • 7
  • 35
  • 59
Source Link
vivek_jonam
vivek_jonam
  • 3.5k
  • 7
  • 35
  • 59