All posts tagged: redshift

Richard Feynman explains why our night sky is dark despite trillions of stars

Richard Feynman explains why our night sky is dark despite trillions of stars

Published by Jenni Sidey

A black patch of sky looks empty until you stop taking it for granted. That is the starting point of a theory from Professor Richard Feynman, built around what sounds like a child’s question, why the night sky is dark. The usual answer feels obvious. The sun sets, Earth rotates, and night falls. That explains why it is not daytime. It does not explain why the sky itself turns black. For centuries, astronomers and philosophers worked from a set of assumptions that seemed reasonable enough. The universe, they thought, was infinite. It had existed forever. And stars were spread through it more or less everywhere, even if they clustered in galaxies. Put those ideas together, and the darkness overhead starts to look strange. The way into the problem is visual. Picture yourself in a forest so vast it never ends. In a small forest, you can look between trunks and catch glimpses of open sky. In an infinite one, every line of sight eventually hits a tree. Shift your gaze slightly, and you miss the …

If the universe is full of stars then why is the night sky dark?

If the universe is full of stars then why is the night sky dark?

Published by Jenni Sidey

A black patch of sky looks empty until you stop taking it for granted. That is the starting point of a theory from Professor Richard Feynman, built around what sounds like a child’s question, why the night sky is dark. The usual answer feels obvious. The sun sets, Earth rotates, and night falls. That explains why it is not daytime. It does not explain why the sky itself turns black. For centuries, astronomers and philosophers worked from a set of assumptions that seemed reasonable enough. The universe, they thought, was infinite. It had existed forever. And stars were spread through it more or less everywhere, even if they clustered in galaxies. Put those ideas together, and the darkness overhead starts to look strange. The way into the problem is visual. Picture yourself in a forest so vast it never ends. In a small forest, you can look between trunks and catch glimpses of open sky. In an infinite one, every line of sight eventually hits a tree. Shift your gaze slightly, and you miss the …

Ask Ethan: Do gravitational waves redshift like light does?

Ask Ethan: Do gravitational waves redshift like light does?

Published by Jenni Sidey

Here in our Universe, the light that gets emitted from objects isn’t necessarily the same as the light that arrives in either our eyes or our instruments. Not only are there many intervening effects that can alter a signal on the way — by interacting with fields, by passing through neutral and ionized matter, and by having to compete with sources of noise — but there are kinetic (motion-based) and gravitational (spacetime-based) effects that alter those signals while in transit as well. In particular, three main effects all can systematically shift light of any wavelength toward either redder or bluer wavelengths: the relative motion of the emitting source and the receiving observer, the changes in the gravitational field that the traveling signal experiences during its journey, and the effects of either expansion or contraction of the spacetime through which the signal travels. These three effects can lead to redshifts or blueshifts, depending on which direction they occur in, and it was long expected that they’d affect all waves, not just light waves, in a similar …