by gth759k » Thu Nov 11, 2010 12:02 am
I recently sent an email to several physics professors at CalTech and MIT with a question I have about Cosmology and only one professor (Walter Lewin) replied simply saying good luck! Its not so much of a question as it is a problem. I've talked to people about this before and the conversation quickly looses all basis in reality and data and becomes more like something out of a science fiction novel. So, if you should choose to reply please stick to the facts and leave out the suppositions. That means I don't want to hear anything like stretchy space-time unless you can back it up with systematic, uniform and precise data and theory, because you'll completely lose my respect. So, on to the problem.
According to many sources (on the web and off) ... the universe is accelerating! So I set about searching for the evidence of this claim and I was pointed to many sites on redshift and spectography and physics equations. Eventually I found this image
which is most interesting to me. I don't know about you, but I can't think in megaparsecs, so the first thing I did was convert the units from megaparsecs to kilometers. The closest type 1a nebula in the lower left hand corner is about 35 Mpc = 1.0799 x (10^21) km and the farthest nebula in the upper right hand corner of the image is about 635 Mpc = 1.9594 x (10^22) km. These values on the horizontal axis were approximated, as I understand using the magnitude-distance formula which uses the absolute and apparent magnitudes to determine the distance. The vertical axis on the chart shows the (approximate) velocity in km/s of the nebula relative to us calculated using Hubble's law. Now, let me ask you a question, what does this chart show us? I've been told that this chart shows that the farther away a celestial body is the faster its going! Hmmm ..... I disagree. I think this chart shows that the farther away a celestial object is, the faster it
WAS going. I say that because, and I'm sure you'll agree, we see the galaxies and nebula as they
WERE and not as they are. So according to the data, the farther away you look, the faster things appear to be moving (relatively) away from us. When we look at the most distant objects we are seeing a picture of the early universe right? Wait, so doesn't that mean that the fastest objects we find are a picture of the early universe? And the closer, more resent, (slower) objects are a picture of a more recent universe? Then the velocities of the closest galaxies and nebula are a better representation of what the universe is like right now because their data is the most recent. It looks like to me, if you reconstruct the events according to the data, that the early universe was moving away from us faster than the more resent universe. Just like an explosion! Wait, explosions don't accelerate.
I recently sent an email to several physics professors at CalTech and MIT with a question I have about Cosmology and only one professor (Walter Lewin) replied simply saying good luck! Its not so much of a question as it is a problem. I've talked to people about this before and the conversation quickly looses all basis in reality and data and becomes more like something out of a science fiction novel. So, if you should choose to reply please stick to the facts and leave out the suppositions. That means I don't want to hear anything like stretchy space-time unless you can back it up with systematic, uniform and precise data and theory, because you'll completely lose my respect. So, on to the problem.
According to many sources (on the web and off) ... the universe is accelerating! So I set about searching for the evidence of this claim and I was pointed to many sites on redshift and spectography and physics equations. Eventually I found this image [img2]http://www.williams.edu/astronomy/Course-Pages/330/images/Hub_Diag_SNIa.jpg[/img2] which is most interesting to me. I don't know about you, but I can't think in megaparsecs, so the first thing I did was convert the units from megaparsecs to kilometers. The closest type 1a nebula in the lower left hand corner is about 35 Mpc = 1.0799 x (10^21) km and the farthest nebula in the upper right hand corner of the image is about 635 Mpc = 1.9594 x (10^22) km. These values on the horizontal axis were approximated, as I understand using the magnitude-distance formula which uses the absolute and apparent magnitudes to determine the distance. The vertical axis on the chart shows the (approximate) velocity in km/s of the nebula relative to us calculated using Hubble's law. Now, let me ask you a question, what does this chart show us? I've been told that this chart shows that the farther away a celestial body is the faster its going! Hmmm ..... I disagree. I think this chart shows that the farther away a celestial object is, the faster it [b][i]WAS[/i][/b] going. I say that because, and I'm sure you'll agree, we see the galaxies and nebula as they [b][i]WERE[/i][/b] and not as they are. So according to the data, the farther away you look, the faster things appear to be moving (relatively) away from us. When we look at the most distant objects we are seeing a picture of the early universe right? Wait, so doesn't that mean that the fastest objects we find are a picture of the early universe? And the closer, more resent, (slower) objects are a picture of a more recent universe? Then the velocities of the closest galaxies and nebula are a better representation of what the universe is like right now because their data is the most recent. It looks like to me, if you reconstruct the events according to the data, that the early universe was moving away from us faster than the more resent universe. Just like an explosion! Wait, explosions don't accelerate.