4 million tons a second is a lot of mass to be lost given enough time. Considering the fact that the sun is over four billion years old, does this mean that the sun was physically bigger when it formed?
What about a couple of hundred years ago? Or a few years ago? Could the suns loss of mass imply that it’s shrinking over time?
In: Physics
The sun is big. You just won’t believe how vastly, hugely, mind-bogglingly big it is. I mean, you may think it’s a long way down the road to the chemist’s, but that’s just peanuts to the sun.
It’s so big that losing 4 million tons of mass a second is kindof like you you losing weight by exhaling. It’s so small that it doesn’t even count.
Actually, counter to your intuition, it’s growing. The sun is mostly only held together by gravity, so as it’s mass decreases, it’s density decreases, and the sun grows. While we have a hard time visualizing 4 million tons, for an object the size of the sun, that is so little as to hardly be worth mentioning. The sun is on the order of 1.989*10^30 kg, so it would take roughly 1.577*10^13 years for the sun to completely consume itself, given a constant rate of consumption. The best estimate of the age of the entire universe is 1.38*10^10 years, roughly 1/1000th of our time frame. As such, for the sun to significantly change in size requires an incredibly long time scale.
Disclaimer: I am a sleep deprived, drunk mechanical engineering student doing some VERY back-of-napkin calculations, for the purposed of conceptualization, so my numbers may be a couple orders of magnitude out of whack, but the point still stands.
What is “significant” when talking about the reducing mass of the sun? On one hand 4 million tons a second seems significant to us, but the sun is really massive.
Over the course of a year it loses 174 trillion tons of mass. But over the next 5 billion years it will lose 0.034% of its total mass. So yes, it is technically becoming less massive over time, but not to any amount significant to its scale.
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