Unravelling the Mystery of Light Speed and Naivety

In summary, the conversation delves into the concept of light speed and its variations, particularly at the interface between different density materials. The question of why the speed of light does not slow down to nothing while traveling through particles or interacting with energy emissions is also raised. The possibility of a combination of factors affecting light speed is also discussed.
  • #1
berty
25
0
Light speed naivety??

The speed of light - c is a fundamental constant, at least in vacuum.
However, it appears that c varies and slows down at the interface between different density materials ie: air to water. But why is this?

If a) photons travel between particles and b) the space between particles is empty then the only reason why c slows is because of the interaction with said particles. If this is the case then why doesn't c slow to nothing whilst traveling and interacting with particles during it's 15 billion light year journey from the edge of the Cosmos to our eyes?

If a) is correct, but b) is not because of the various energy emissions and elemental forces the photons encounter (ie:- do the photons lose energy?) in the less than empty space between particles, then does c vary because of it's interaction with them?

Or is it a combination of factors and if so what are they and what determines their effect/s?

If anyone can answer this query could they e mail me at:
bertiep@yahoo.com
 
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  • #2
You should ask this in the Classical Physics forum.
 
  • #3


It is not entirely accurate to say that the speed of light varies and slows down at the interface between different density materials. The speed of light in a vacuum is always constant at approximately 299,792,458 meters per second. However, when light travels through a medium such as air or water, it can appear to slow down due to interactions with the particles in that medium.

This phenomenon is known as refraction and is caused by the change in the speed of light as it passes through different materials. This change in speed is due to the interaction between the photons and the particles in the medium, which causes the photons to change direction and slow down.

As for the question of why the speed of light does not slow down to nothing during its journey from the edge of the Cosmos to our eyes, it is important to understand that the vacuum of space is not truly empty. It is filled with various particles and energy emissions, but these are so spread out that they do not significantly affect the speed of light.

In summary, the speed of light is constant in a vacuum and can appear to slow down in different materials due to interactions with particles. However, these interactions are not significant enough to drastically change the speed of light during its journey through space.
 

FAQ: Unravelling the Mystery of Light Speed and Naivety

What is the speed of light and how is it measured?

The speed of light is a fundamental constant in physics, denoted by the letter "c". It is the speed at which electromagnetic radiation (such as light) travels in a vacuum. Its value is approximately 299,792,458 meters per second. This speed is measured using various techniques, such as the time it takes for light to travel a known distance or the frequency of light waves.

How was the speed of light first determined?

The first successful measurement of the speed of light was conducted by Ole Rømer in 1676. He did this by observing the eclipses of Jupiter's moons and noting the time differences between when they were seen from Earth and when they were expected to be seen based on their orbits. This method, known as the "Rømer method," provided an estimate of the speed of light that was only about 26% off from the currently accepted value.

What is special relativity and how does it relate to the speed of light?

Special relativity is a theory developed by Albert Einstein that explains the relationship between space and time. One of its key principles is that the speed of light is constant and is the same for all observers, regardless of their relative motion. This means that no matter how fast an observer is moving, light will always appear to travel at the same speed.

Can anything travel faster than the speed of light?

According to our current understanding of physics, nothing can travel faster than the speed of light. This is because as objects approach the speed of light, their mass increases and it would require an infinite amount of energy to accelerate them any further. This is known as the "mass-energy equivalence" principle, or E=mc^2.

How does naivety play a role in unraveling the mystery of light speed?

Naivety, or the state of being naive or inexperienced, does not directly play a role in understanding the speed of light. However, being open-minded and questioning commonly held beliefs and theories can lead to new discoveries and a deeper understanding of the subject. In the field of science, it is important to approach problems with an open mind and a willingness to challenge traditional thinking in order to make progress and unravel mysteries such as the speed of light.

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