How to measure the temperature of the Universe

Swinburne University of Technology

6 Jun 201403:07

Summary

TLDRThis video explains how scientists measure the temperatures of stars and other celestial bodies without thermometers. By observing the light emitted by hot objects, astronomers can determine temperature based on the color of the light. Hotter objects glow red, then yellow, and eventually blue as temperatures increase. For distant gas clouds, scientists analyze absorption spectra, noting how specific wavelengths of light are blocked by moving atoms. This information allows them to infer the temperature of celestial objects throughout the universe, highlighting the innovative methods used in astrophysics.

Takeaways

🌡️ Stars are extremely hot, with temperatures we can't measure directly using traditional thermometers.
🌊 We measure temperature on Earth by placing a thermometer in thermal contact with a substance, allowing heat to transfer.
🔬 The temperature of an object correlates with the motion of its atoms; hotter objects have atoms that move more quickly.
☀️ The Sun's surface temperature is around 5,500 degrees Celsius, making traditional temperature measurement impossible.
💡 As objects heat up, they emit light; the color of that light indicates the temperature of the object.
🔥 A toaster glows red as it heats up, illustrating the relationship between heat and light emission.
🔵 Higher temperatures result in higher frequency light emission, shifting from red to yellow, and then to blue as temperatures rise.
🌌 Extremely hot objects can emit light beyond the visible spectrum into ultraviolet and X-ray ranges.
🔭 Astronomers use the color of stars to determine their temperatures based on their light emissions.
🌫️ For faint objects like intergalactic gas, astronomers analyze absorption spectra by observing how gas clouds block light from brighter background objects.

Q & A

How do we measure the temperature of objects in the universe?
-We cannot use thermometers in extreme environments like stars; instead, we rely on the emission of light by atoms, which varies with temperature.
What happens when you place a thermometer in hot water?
-The heat from the hot water causes the atoms in the water to move quickly, transferring energy to the thermometer, which raises the liquid inside it, allowing us to read the temperature.
What is the relationship between temperature and atomic movement?
-Higher temperatures correspond to faster atomic movement; as an object heats up, the atoms jiggle more rapidly.
Why can't we use thermometers to measure the temperature of the Sun?
-The surface of the Sun is extremely hot, at least 5,500 degrees Celsius, which would melt any conventional thermometer.
How does an object’s color relate to its temperature?
-The color of light emitted by an object changes with temperature; as an object heats up, it emits light at higher frequencies, shifting from red to yellow to blue as it gets hotter.
What is an absorption spectrum?
-An absorption spectrum occurs when a gas cloud absorbs certain wavelengths of light from a bright background object, creating dark lines or troughs in the spectrum.
How can astronomers determine the temperature of gas clouds in space?
-By observing how much light is absorbed at specific wavelengths, astronomers can analyze the width of the absorption troughs, which indicates the speed of the atoms and thus their temperature.
What happens to light emitted by hot objects?
-As objects heat up, they emit light in a spectrum that includes not only visible light but also higher energy forms such as ultraviolet and X-rays at extreme temperatures.
How does temperature affect the emission of light from stars?
-The temperature of a star affects the peak wavelength of light it emits, allowing astronomers to classify stars and estimate their temperatures based on their color.
Can we measure temperature without direct contact?
-Yes, astronomers can measure the temperature of distant objects by analyzing the light they emit or absorb, without needing to physically touch or sample them.