Profile

Cover photo
Joseph Kyiamah
Attended Morehouse College
Lives in Atlanta
67 followers|78,692 views
AboutPostsPhotosVideos

Stream

Joseph Kyiamah

Shared publicly  - 
 
 
Alaskan Aurora by campfire
Todd: "Beautiful auroras and a warm campfire light up the night south of the Alaska Range from midnight on October 11, 2015 until dawn on October 12. After wrestling with October clouds, rain & snow in Southcentral Alaska oh what a relief it was to get clear earth weather AND active space weather!"

Credit: Todd Salat
Date: October 12, 2015
Location: South of the Alaska Range

+Todd Salat 

#Space #Astronomy #Science #Aurora #Borealis #NorthernLights
#Stars #Astrophotography #Photography #Art #Earth #Alaska #USA #UnitedStates
51 comments on original post
1
Add a comment...

Joseph Kyiamah

Shared publicly  - 
 
A new Gallup poll has found that six in 10 Americans say that their trust in mass media ranges from “not very much” to “none at all.” Those surveyed were asked about the media reporting the news fully, accurately and fairly.
1
Add a comment...

Joseph Kyiamah

Shared publicly  - 
 
Interesting article. I can actually relate this to the theory of constraints in Goldratt's books on operations. Specifically how the concentration of inventory in a system actually increases the throughput time or the amount of time (duration) that inventory stays in the system but when there is less concentration of inventory in the system throughput time or duration of inventory in the system decreases..
Relate inventory to the waves that make up light energy in a gravitational field, thus the stronger the gravitational field the higher the inventory in the system.
 
General Relativity is the Dynamics of Distance

This is part two in a many-part series on general relativity. Last time, I described how Galileo almost discovered general relativity. In particular, I told you that gravity isn’t a force. In fact, gravity is the same as acceleration. Now, this is a completely crazy idea. After all, we’re all sitting in the gravitational field of the Earth right now, but we don’t feel like we’re moving, let alone accelerating. But let’s take this crazy idea at face value and see where it leads us.

(To read this post in blog form, go here: http://www.thephysicsmill.com/2015/08/03/general-relativity-is-the-dynamics-of-distance/)

(If you haven’t read my previous post on why gravity is acceleration, I recommend you do so now. It is here: http://www.thephysicsmill.com/2015/07/26/galileo-almost-discovered-general-relativity/)

But first, we need to make a brief detour  and discuss the Doppler effect.

The Doppler Effect

The Doppler effect is a bit complicated (especially for light), so I won’t go into too much depth. Instead, I’ll describe it by analogy. (I’ve given the same analogy before, in my article on the expanding universe. So if you remember, you can skip all this. See: http://www.thephysicsmill.com/2013/03/24/receding-horizons-dark-energy-and-the-expanding-universe/)

Imagine that Paul Dirac [1] and Leopold Kronecker [2] are playing catch, as in figure 2. Each second, Kronecker throws a ball to Dirac, who catches it. Thus, the frequency of balls that Dirac catches is 1 Hertz (Hz)—one per second, or one inverse second.

But now imagine that Dirac starts backing away from Kronecker, as shown in figure 3. Kronecker continues to throw at a rate of one ball per second. However, since Dirac is moving away from the balls, each one takes longer to get to him. Thus, he catches the balls at a rate slower than one per second…say, one every 1.5 seconds.

A similar thing happens with both light and sound. (In the case of sound, we call it the acoustic Doppler effect [3].) Light is a wave. It has peaks and troughs which wiggle up and down in time, as shown in figure 4. The number of peaks (or troughs) per meter is called the wave number.  The speed at which it wiggles up and down in time is called the frequency. The two are related by the speed of the light wave, which is always constant (see: http://www.thephysicsmill.com/2012/11/19/the-speed-of-light-is-constan/), so they’re basically interchange-able.

The frequency of a light wave is analogous to the frequency at which Kronecker throws balls at Dirac. Instead of counting the number of times Dirac throws the ball, we count the peaks of the wave. The frequency of a light wave also determines its color; high frequencies are blue, while low frequencies are red.

This means that if Kronecker fires a green laser at Dirac, and Dirac moves away from him, the laser light will appear more reddish to Dirac than it does to Kronecker. This is called a redshift. If Dirac were moving away from from Kronecker at an increasing rate, in other words if Dirac were accelerating, the redshift would be even more pronounced.

Gravitational Redshift

So what does all this have to do with gravity? Well remember, gravity is acceleration. So we should be able to see a Doppler-like effect just by moving from a region with strong gravity into a region with weak gravity, or vice-versa. To see what I mean, imagine that Kronecker and Dirac are up to their old tricks. But this time, imagine that Kronecker is on Earth, and Dirac is in space, as shown in figure 5.

Kronecker fires a green laser up at Dirac. Now, remember: gravity is acceleration. Both Kronecker and Dirac are in a gravitational field, so they’re both accelerating. But Kronecker is in a stronger field, so he’s accelerating more. This means that, from Dirac’s perspective, Kronecker is accelerating away from him. Therefore, by the time the light reaches Dirac, he sees it redshifted because of the Doppler effect.

In the context of general relativity, we call this gravitational redshift, and it’s a real effect. We need to take it into account when we read signals sent to us from gps satellites, for example [4].

Redshift, Distance, Time

The peaks and troughs of light make it an extraordinarily good ruler. If you know the wave number of a wave of light, you can count the number of peaks and in the wave between two places and calculate how far away those two places are from each other. In a very real sense, distance is defined by this procedure [5].

How, then, do we interpret the redshifted light that Dirac sees? If light on Earth is redshifted when it goes into space, that light stretches out. The distance between adjacent peaks in the light wave grows. Does this mean that distance itself grows?

Yes. It means exactly that.

In a strong gravitational field, distances are shorter than in a weak gravitational field. Indeed, because the wave number of a wave and the frequency of a wave are interchange-able, this also means that times are longer in duration a strong gravitational field than in a weak gravitational field.

We started with the crazy (but true!) idea that gravity is the same as acceleration. But this has lead us to an even crazier (but still true!) idea: gravity shrinks distance and stretches duration.

This is what people mean when they say that gravity is a warping of space and time (or suggestively, spacetime). The very way that we measure distance is distorted by a gravitational field.

And general relativity is the dynamics of distance.

Next time we’ll talk about how a warped spacetime creates the illusion of a gravitational force.

Further Reading

I took the gravitational redshift argument directly out of the excellent textbook Spacetime and Geometry by +Sean Carroll. If you have a good background in math and you want to learn general relativity, I highly recommend it.  You should also check out his amazing blog: http://preposterousuniverse.com/

Here are some other resources:

1. This is a nice video on the Doppler effect: https://youtu.be/h4OnBYrbCjY

2. The PBS Spacetime Vlog has an excellent series of videos on general relativity. The first two videos cover what I’ve covered so far, but from a different perspective. You can find them here:
https://youtu.be/YycAzdtUIko
https://youtu.be/NblR01hHK6U

References
[1] http://en.wikipedia.org/wiki/Paul_dirac
[2] http://en.wikipedia.org/wiki/Kronecker
[3] http://en.wikipedia.org/wiki/Acoustic_Doppler_effect
[4] https://www.aapt.org/doorway/tgrutalks/Ashby/AshbyTalk5of6.htm
[5] http://www.bipm.org/utils/common/pdf/si_brochure_8_en.pdf

#Science #Physics #relativity #ScienceEveryDay  
14 comments on original post
1
Add a comment...

Joseph Kyiamah

Shared publicly  - 
 
Listen to the first track off Robinson's duets album featuring Steven Tyler, Cee Lo, John Mayer and more
1
Terra Noble Jessy's profile photo
 
Wow
Add a comment...

Joseph Kyiamah

Shared publicly  - 
 
 
8 magical health benefits of coconut oil - and why you need it! See the post here: http://wp.me/p24MP6-3p4
9 comments on original post
1
1
Add a comment...

Joseph Kyiamah

Shared publicly  - 
 
Check out this video on YouTube:
1
Add a comment...

Joseph Kyiamah

Shared publicly  - 
1
Add a comment...
In his circles
451 people
Have him in circles
67 people
Collin Heller's profile photo
william nartey's profile photo
Paul Evans's profile photo
Marge Curtis's profile photo
Kwame Kyiamah's profile photo
exoticcreamy juliet's profile photo
Yaw Tandoh's profile photo
Alex Barkers's profile photo
Hope Anusiem's profile photo

Joseph Kyiamah

Shared publicly  - 
 
Jahtha 
1
Add a comment...

Joseph Kyiamah

Shared publicly  - 
 
Interesting
1
Add a comment...

Joseph Kyiamah

Shared publicly  - 
 
 
Coconut Oil White Chocolate Cookies - All the butter has been replaced with coconut oil in these soft & chewy cookies loaded with white chocolate! If you've wanted to start baking with coconut oil, this is an easy recipe to try!

Pin It
http://www.pinterest.com/pin/211598882466455576/

Recipe
http://www.averiecooks.com/2013/01/coconut-oil-white-chocolate-cookies.html
Show less
90 comments on original post
1
Add a comment...

Joseph Kyiamah

Shared publicly  - 
 
 
Coconut oil has become very popular in alternative health circles, despite the fact that for many years it was considered a “bad” fat due to its high saturated fat content. It turns out that the saturated fat in coconut oil is not the same as the saturated fat in other oils and coconut oil has some amazing health benefits.

#healthylifestyle   #healthyliving   #healthylivinghowto   #coconutoil   #healthbenefitsofcoconutoil  
Coconut oil has become very popular in alternative health circles, despite the fact that for many years it was considered a "bad" fat due to its high saturated fat content. It turns out that the sa...
4 comments on original post
1
Add a comment...
People
In his circles
451 people
Have him in circles
67 people
Collin Heller's profile photo
william nartey's profile photo
Paul Evans's profile photo
Marge Curtis's profile photo
Kwame Kyiamah's profile photo
exoticcreamy juliet's profile photo
Yaw Tandoh's profile photo
Alex Barkers's profile photo
Hope Anusiem's profile photo
Basic Information
Gender
Male
Education
  • Morehouse College
    1999
Places
Map of the places this user has livedMap of the places this user has livedMap of the places this user has lived
Currently
Atlanta
Links