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Light And Distance

Celestial Tour: The Journey of Light

The James Webb Space Telescope, located far beyond Earth's Moon in the bitter cold of space, will search for infrared light, the radiation humans perceive as heat.

Credits

Light and Distance
 
Produced by the Space Telescope Science Institute’s Office of Public Outreach in collaboration with NASA’s Universe of Learning partners: Caltech/IPAC, Center for Astrophysics | Harvard & Smithsonian, NASA Jet Propulsion Laboratory, and Sonoma State University
 
All images, illustrations, and videos courtesy of NASA except:
 

  • Illustration of radiation from everyday objects courtesy of STScI

  • Illustration of electromagnetic waves courtesy of STScI

  • Photo of crepuscular rays courtesy of Wikimedia user Fir0002/Flagstaffphotos

  • Photo of snake courtesy of Mark Mannetti

  • Infrared image of a mouse courtesy of Julius Lab, UCSF

  • Photo of snow geese and the Moon courtesy of Brocken Inaglory

  • James Webb Space Telescope illustrations by STScI/G. Bacon

  • Ariane 5 rocket launch image ©2008 ESA – CNES – Arianespace/Photo by Optique Video CSG

  • James Webb Space Telescope animation by STScI/G. Bacon

  • Animation of traveling light pulses courtesy of Footage Island

  • Alpha Centauri animation courtesy of ESO/L. Calçada/Nick Risinger (skysurvey.org)

  • Andromeda Galaxy image courtesy of ESA/Hubble & Digitized Sky Survey 2; acknowledgment: Davide De Martin (ESA/Hubble)

  • Illustration of galaxies at different distances by STScI/A. Field

  • Cosmic redshift animation courtesy of ESO

  • Simulated JWST galaxy field image courtesy of STScI

  • Taurus constellation drawing from Firmamentum Sobiescianum sive Uranographia by Johannes Hevelius, courtesy of the United States Naval Observatory

  • Written by Tracy Vogel

  • Designed by Marc Lussier 

  • Music courtesy of Associated Production Music


Transcript

(SPEECH) 
 [ELECTRONIC MUSIC] 


(DESCRIPTION) 
 Text, in 2021, a new telescope will take to the stars. 


The James Webb Space Telescope, located far beyond Earth's Moon in the bitter cold of space, will search for infrared light, the radiation humans perceive as heat. 


A man uses a tool. He works in a face mask. 


Text, Webb's infrared, detecting vision will examine distant planets for traces of water vapor, assisting in the search for another living world. 


The James Webb Space Telescope, The Journey of Light 


Stars glow in a dark sky. Text, Visible & infrared image of Hubble Ultra Deep Field. This is the Hubble Ultra Deep Field, a view that stretches over 13 billion light-years into the cosmos. 


(SPEECH) 
 [NEW-AGE MUSIC] 


(DESCRIPTION) 
 The Hubble Ultra Deep Field is a snapshot of what we see when we look into the sky today. 


Yet at the same time, it captures the universe of the far-distant past. 


Everything you see in this image is ancient history, witnessed not as it is now, but as it was long ago. 


The earliest galaxies in this image appear as they were just a short time after the Big Bang. 


The idea seems incredible, like having a time machine at your fingertips. 


But the reality is much simpler. 


Light moves 


White lines streak left to right 


Text, It travels at amazing speeds, but it still takes time to cross the immense distances of space. 


The Moon is Earth's closest cosmic companion, about 239,000 miles (384,000 kilometers) away. 


A wavy line between Earth on the left and the Moon on the right. Text, Light takes 1.3 seconds to travel that distance. 


So when the light from the Moon strikes your eyes, you're seeing it as it was 1.3 seconds earlier. 


A wavy line between Earth on the left and the Sun on the right. Text, the Sun is 93 million miles (150 million kilometers) away, far enough for light to take more than eight minutes to travel to Earth. 


Sunbursts in the sun. Text, The sunlight reaching us right now is more than eight minutes old. 


Orbital rings in different colors. Neptune, Uranus , Saturn, Jupiter, Mars, Earth. Text, The farther away objects are, the longer their light takes to reach us. 


A wavy line from Neptune to Earth. Text, Light from Neptune takes 4 hours to reach the inner solar system 


while the light from the next-nearest star system travels for four years before it reaches Earth. 


A bright orb moves among the stars 


A giant light at an angle. Text, Galaxies are even farther away. 


The Andromeda Galaxy is our nearest large galactic neighbor. 


Light must travel two and a half million years to reach us from Andromeda. 


The distance that light travels in a year is such a useful measurement for talking about immense Cosmic distances that we have a name for it - a light-year 


Galaxies inside four rectangular shapes. Distant Galaxies at far left, Nearby Galaxies far right. A telescope to the right. A wavy line moves left to right. Text, When we use our telescopes to collect light from the Galaxy's most distant from us, we are capturing the light that left them billions of years earlier. 


So we see them not as they were seconds or minutes ago, but as they were billions of years ago, when they were newly born. 


18 stars and galaxies in a grid. Text, The light from the universe's first stars and galaxies is still out there, traveling the vast expanses of space. 


A moving three-dimensional web strung between bright points in space, Text, If we could capture that light, we could see those objects as they appeared when they first formed. 


But we haven't been able to see it, not even with Hubble's powerful vision. 


On a grid, a wavy line moves from a star to Earth. Text, That's because, as the light travels across space, it's stretched by the expansion of the universe. 


The Expanding Universe Stretches Light. 


An arrow from Ultraviolet and Visible Light over a star points to Infrared Light over Earth. A wavy, multi-colored line between them. 


Text, This changes the light from ultraviolet and visible wavelengths into infrared light. 


Hubble can see only some of those infrared wavelengths. 


The Webb Space Telescope. Text, With its huge mirror and infrared-sensitive instruments, the Webb Space Telescope will be able to see this infrared light and study the universe's earliest galaxies. 


The Webb and Hubble side by side. Text, Webb's infrared images will have the resolution and detail of the visible-light images taken by its predecessor, Hubble. 


It will open a window onto regions of the universe humanity has never seen before.