Talk:1125: Objects In Mirror
- Agreed. The key part of the "punchline" is the word "bluer", and it's really hard to read. 126.96.36.199 18:43, 24 October 2012 (UTC)
- The drawing has a different feel too. It seems to have been done with a pressure sensitive pen. Maybe Randall is trying out a new method. A galaxy note maybe? Fanboix (talk) 19:40, 24 October 2012 (UTC)
- Text on the mirror is larger than it appears.
I think title text refers to the expansion of the universe and the speed of light. The observable universe is viewed from light that originated in the past. The further away the object, the further back in time we observe it. In an expanding universe, the universe we observe today is actually how it looked in the past (smaller) and we are unable to observe it's present size (larger) due to the great distances and the time it takes for the light to arrive. Thus, the universe is larger than it appears, no matter if you view it traveling towards or away from any object. --Bpiltz (talk) 15:47, 24 October 2012 (UTC)
My first thought was that the title text refers to the fact that objects appear to be in different directions, as well as colors, from a moving viewpoint. So objects in front of a moving car will appear to be closer together than if the car were stopped.
But objects seen in the rear-view mirror will appear more spread out, so maybe not.
188.8.131.52 18:58, 24 October 2012 (UTC)
- Naw, you're thinking too much about this. Randall is just commenting that the universe, (as visible through the relatively small aperature of a windshield or mirror) is much bigger than it appears in either viewport. "There are more things in heaven and earth than are visible through your view-portal, Horatio!" (to paraphrase the Bard.) If that's what he was trying to say in Click and Drag, too, so be it. -- 184.108.40.206 21:44, 24 October 2012 (UTC)
I agree, I reckon it just means there is whole lot of universe out there that you can't see, regardless of what direction you're looking or what you're looking at it through. Brendan (talk) 05:57, 25 October 2012 (UTC) BK
- If he were moving quite fast, the scenery in the mirror WOULD be red-shifted. But since he's not moving very fast, he doesn't see the expected red-shift, and thus things look bluer than they normally would.--Joehammer79 (talk) 14:54, 25 October 2012 (UTC)
- That's a good question. He does appear to be in the passing lane (dashed lane to the right, unless he's driving on the wrong side of the road ;p but it wouldn't make sense to have a right-hand drive car with the warning on the driver side mirror), so he would ostensibly be going faster than slower traffic. Interesting conundrum. lcarsos (talk) 15:21, 25 October 2012 (UTC)
- The scenery is red shifted and as such appears red, but is truly bluer than it currently appears in the mirror. This is just like the actual safety warning that the mirror makes things appear smaller (farther away) than if you were looking at them directly (I suspect this is to increase the field of view), so the objects are actually closer than they appear in the mirror. --Chexwarrior (talk) 20:38, 25 October 2012 (UTC)
- The passenger-side mirror on cars is slightly convex in order to increase the field of view (and hence decrease the size of the blind spot). The side effect of this is printed on the mirror. The driver-side mirror is flat, however. ----
Objects in the Rear View Mirror May Appear Closer than They Are, anyone? --220.127.116.11 07:42, 25 October 2012 (UTC)
- Commenting the same legal notice. There are several pop-culture references to objects-in-mirror. -- IronyChef (talk) 04:33, 25 October 2012 (UTC)
Astrophysics major here.
The ACTUAL reason he says "Universe is larger than it appears" is because Edwin Hubble was part of the "Great Debate", which was a scientific conundrum in the early 20th century about whether the universe contained multiple galaxies or merely the Milky Way. Scientists were uncertain which theory was correct until Hubble's data, which conclusively showed, via observations of Cepheid variable stars, that galaxies such as Andromeda are located much too far away (about 2 million light years) to be located within our own galaxy. Consequently, the universe is much larger than it might originally appear to be.
18.104.22.168 15:51, 26 October 2012 (UTC)