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| GreenXenon... |
 Posted: Wed May 06, 2009 6:46 pm |
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Hi:
What entities in a single stationary image of the negative of a B&W
film are measured in Hz?
What will the image look like if I change the frequencies of those
entities to 0.1 Hz?
Thanks |
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| Sir None Of Your Business... |
| Posted: Wed May 06, 2009 11:39 pm |
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Guest
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On Wed, 6 May 2009 21:46:27 -0700 (PDT), GreenXenon
<glucegen1x at (no spam) gmail.com> wrote:
Quote: Hi:
What entities in a single stationary image of the negative of a B&W
film are measured in Hz?
What will the image look like if I change the frequencies of those
entities to 0.1 Hz?
It's our resident moron again. Your IQ is equaly to the frequency of
0.1 Hz........
noyb |
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| ushere... |
| Posted: Wed May 06, 2009 11:46 pm |
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Guest
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GreenXenon wrote:
Quote: Hi:
What entities in a single stationary image of the negative of a B&W
film are measured in Hz?
What will the image look like if I change the frequencies of those
entities to 0.1 Hz?
Thanks
google.
google |
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| Mr.T... |
| Posted: Wed May 06, 2009 11:49 pm |
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"GreenXenon" <glucegen1x at (no spam) gmail.com> wrote in message
news:0df92e78-44c7-4d18-a9a2-0fb544b65a2d at (no spam) c18g2000prh.googlegroups.com...
Quote:
What entities in a single stationary image of the negative of a B&W
film are measured in Hz?
The wavelength/bandwidth of any transmitted light can be measured in Hz.
Quote: What will the image look like if I change the frequencies of those
entities to 0.1 Hz?
It won't be visible.
(A bit like your intelligence)
MrT. |
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| Scott Dorsey... |
| Posted: Thu May 07, 2009 7:05 am |
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Guest
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In article <0df92e78-44c7-4d18-a9a2-0fb544b65a2d at (no spam) c18g2000prh.googlegroups.com>,
GreenXenon <glucegen1x at (no spam) gmail.com> wrote:
Quote:
What entities in a single stationary image of the negative of a B&W
film are measured in Hz?
None. Hertz is the reciprocal of the period with respect to time. A
B&W image does not change.
--scott
--
"C'est un Nagra. C'est suisse, et tres, tres precis." |
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| Richard Crowley... |
| Posted: Thu May 07, 2009 7:11 am |
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"Scott Dorsey" wrote...
Quote: GreenXenon <glucegen1x at (no spam) gmail.com> wrote:
What entities in a single stationary image of the negative of a B&W
film are measured in Hz?
None. Hertz is the reciprocal of the period with respect to time. A
B&W image does not change.
Scott, I though you knew better than to respond to this notorious troll. |
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| GreenXenon... |
| Posted: Thu May 07, 2009 7:22 am |
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On May 7, 6:05 am, klu... at (no spam) panix.com (Scott Dorsey) wrote:
Quote: In article <0df92e78-44c7-4d18-a9a2-0fb544b65... at (no spam) c18g2000prh.googlegroups.com>,
GreenXenon <glucege... at (no spam) gmail.com> wrote:
Quote:
What entities in a single stationary image of the negative of a B&W
film are measured in Hz?
Quote: None. Hertz is the reciprocal of the period with respect to time.
Hz is commonly used to measure cycles-per-constant-time [usually in
seconds] but could also be used to measure cycles-per-constant-
distance [as in the cycles-per-meter in spatial frequency]. Right?
If an single stationary image is low-pass-filtered it will look
duller. If it is high-pass-filtered it will look sharper. This is an
example of frequency-processing in which the Hz is *not* "the
reciprocal of the period with respect to time".
In this case Hz measures the reciprocal of the period with respect to
distance. Right? |
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| GreenXenon... |
| Posted: Thu May 07, 2009 7:41 am |
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Guest
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On May 6, 10:49 pm, "Mr.T" <MrT at (no spam) home> wrote:
Quote: "GreenXenon" <glucege... at (no spam) gmail.com> wrote in message
news:0df92e78-44c7-4d18-a9a2-0fb544b65a2d at (no spam) c18g2000prh.googlegroups.com...
Quote:
What entities in a single stationary image of the negative of a B&W
film are measured in Hz?
Quote:
The wavelength/bandwidth of any transmitted light can be measured in Hz.
No offense but forget about the wavelength or color of the light. The
light is white. Irrelevant.
Quote: What will the image look like if I change the frequencies of those
entities to 0.1 Hz?
Quote: It won't be visible.
..
Why not? If the image is big enough, won't it be able to contain a 0.1
Hz spatial video signal? |
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| Smarty... |
| Posted: Thu May 07, 2009 7:57 am |
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Guest
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"Richard Crowley" <rcrowley at (no spam) xp7rt.net> wrote in message
news:muydnSb2a7hrQJ_XnZ2dnUVZ_oKdnZ2d at (no spam) posted.pcez...
Quote: "Scott Dorsey" wrote...
GreenXenon <glucegen1x at (no spam) gmail.com> wrote:
What entities in a single stationary image of the negative of a B&W
film are measured in Hz?
None. Hertz is the reciprocal of the period with respect to time. A
B&W image does not change.
Scott, I though you knew better than to respond to this notorious troll.
Richard,
I will take responsibility for encouraging this troll. Sorry I encouraged
him (she/it). |
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| David McCall... |
| Posted: Thu May 07, 2009 11:34 am |
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| GreenXenon... |
| Posted: Thu May 07, 2009 4:35 pm |
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Guest
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On May 7, 6:43 pm, "Mr.T" <MrT at (no spam) home> wrote:
Quote: "GreenXenon" <glucege... at (no spam) gmail.com> wrote in message
news:0fb7b77e-271e-4b72-921f-a054a7c15ded at (no spam) y10g2000prc.googlegroups.com...
What entities in a single stationary image of the negative of a B&W
film are measured in Hz?
The wavelength/bandwidth of any transmitted light can be measured in Hz.
No offense but forget about the wavelength or color of the light. The
light is white. Irrelevant.
The light *may* be white, and it's the only thing NOT irrelevant to your
stupid question since it does have a frequency bandwidth.
What will the image look like if I change the frequencies of those
entities to 0.1 Hz?
It won't be visible.
.
Why not?
Radiation frequencies of 0.1Hz are not visible to the eye.
As said before frequencies of EM radiation are totally unrelated to
this topic. |
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| Mr.T... |
| Posted: Thu May 07, 2009 7:43 pm |
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Guest
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"GreenXenon" <glucegen1x at (no spam) gmail.com> wrote in message
news:0fb7b77e-271e-4b72-921f-a054a7c15ded at (no spam) y10g2000prc.googlegroups.com...
Quote: What entities in a single stationary image of the negative of a B&W
film are measured in Hz?
The wavelength/bandwidth of any transmitted light can be measured in Hz.
No offense but forget about the wavelength or color of the light. The
light is white. Irrelevant.
The light *may* be white, and it's the only thing NOT irrelevant to your
stupid question since it does have a frequency bandwidth.
Quote: What will the image look like if I change the frequencies of those
entities to 0.1 Hz?
It won't be visible.
.
Why not?
Radiation frequencies of 0.1Hz are not visible to the eye.
Quote: If the image is big enough, won't it be able to contain a 0.1
Hz spatial video signal?
Which *IS* irrelevant to your original question, even IF it were possible.
MrT. |
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| Mr.T... |
| Posted: Thu May 07, 2009 7:45 pm |
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Guest
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"David McCall" <mccallmail at (no spam) verizon.net> wrote in message
news:VYEMl.3051$fy.1066 at (no spam) nwrddc01.gnilink.net...
So how much did you earn from that reply? :-)
MrT. |
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| Mr.T... |
| Posted: Fri May 08, 2009 12:50 am |
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Guest
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"GreenXenon" <glucegen1x at (no spam) gmail.com> wrote in message
news:7990064e-bb74-4e06-a51d-750c9054b173 at (no spam) r31g2000prh.googlegroups.com...
Quote: What entities in a single stationary image of the negative of a
B&W
film are measured in Hz?
The wavelength/bandwidth of any transmitted light can be measured in
Hz.
No offense but forget about the wavelength or color of the light. The
light is white. Irrelevant.
The light *may* be white, and it's the only thing NOT irrelevant to your
stupid question since it does have a frequency bandwidth.
What will the image look like if I change the frequencies of those
entities to 0.1 Hz?
It won't be visible.
.
Why not?
Radiation frequencies of 0.1Hz are not visible to the eye.
As said before frequencies of EM radiation are totally unrelated to
this topic.
LIGHT waves are the only "frequencies" relevant to a "negative of a B&W
film".
MrT. |
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| GreenXenon... |
| Posted: Fri May 08, 2009 6:28 am |
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Guest
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On May 7, 11:50 pm, "Mr.T" <MrT at (no spam) home> wrote:
Quote: "GreenXenon" <glucege... at (no spam) gmail.com> wrote in message
news:7990064e-bb74-4e06-a51d-750c9054b173 at (no spam) r31g2000prh.googlegroups.com...
What entities in a single stationary image of the negative of a
B&W
film are measured in Hz?
The wavelength/bandwidth of any transmitted light can be measured in
Hz.
No offense but forget about the wavelength or color of the light. The
light is white. Irrelevant.
The light *may* be white, and it's the only thing NOT irrelevant to your
stupid question since it does have a frequency bandwidth.
What will the image look like if I change the frequencies of those
entities to 0.1 Hz?
It won't be visible.
.
Why not?
Radiation frequencies of 0.1Hz are not visible to the eye.
As said before frequencies of EM radiation are totally unrelated to
this topic.
LIGHT waves are the only "frequencies" relevant to a "negative of a B&W
film".
Nope. Spatial frequency is far more relevant. |
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