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What graph best shows the relationship of the size of the universe to the temperature indicated by the cosmic microwave background radiation?
A scatter plot is the best graph to show the relationship between the size of the universe and the temperature indicated by the cosmic microwave background radiation (CMB). Each point on the scatter plot can represent a specific time in the universe's history, with the x-axis representing the size of the universe and the y-axis representing the corresponding temperature of the CMB. This format allows for clear visualization of trends and correlations between the two variables over time.
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What is spectral distribution of cosmic microwave background radiation?
The spectral distribution of cosmic microwave background radiation follows a blackbody spectrum with a temperature of approximately 2.7 Kelvin. It peaks in the microwave region of the electromagnetic spectrum, with a characteristic wavelength of around 1 mm. This radiation is considered a key piece of evidence supporting the Big Bang theory.
What is primordial background radiation?
Primordial background radiation is in actuality Cosmic Microwave Background. To discover just what Cosmic Microwave Background theories are, visit the URL posted below:http://www.astro.ucla.edu/~wright/CMB.html
What is the background noise of the big bang theory?
The Cosmic Microwave Background Radiation was predicted by proponents of Big Bang Cosmology (BBC) about 18 years before it was found. Its existence, isotropy, and spectrum is easy to explain with BBC; pretty much impossible to explain using alternatives.
What does a microwave telescope allow you to see?
A microwave telescope allows you to see celestial objects and phenomena that emit microwave radiation, such as cosmic microwave background radiation, molecular clouds, and active galactic nuclei. By detecting and studying these microwave emissions, scientists can gain insights into the composition, temperature, and structure of these objects.
What are two pieces of evidence that support the Big Bang theory?
Hubble's discovery in the 1920s of a relationship between a galaxy's distance from Earth and its speed; and the discovery in the 1960s of cosmic microwave background radiation.
What is the relationship between CMB photon energy and the cosmic microwave background radiation?
The relationship between CMB photon energy and the cosmic microwave background radiation is that the CMB radiation consists of photons with a specific energy corresponding to the temperature of the universe at the time of decoupling, which is around 2.7 Kelvin. The energy of these photons is directly related to their wavelength, with higher energy photons having shorter wavelengths and vice versa.
The heat left over from the beginning of the universe is?
cosmic microwave background radiation.
What is the significance of the temperature 2.7 Kelvin in the study of cosmic microwave background radiation?
The temperature of 2.7 Kelvin is significant in the study of cosmic microwave background radiation because it represents the remnant heat from the Big Bang, providing crucial evidence for the Big Bang theory and helping scientists understand the early universe's evolution.
What is spectral distribution of cosmic microwave background radiation?
The spectral distribution of cosmic microwave background radiation follows a blackbody spectrum with a temperature of approximately 2.7 Kelvin. It peaks in the microwave region of the electromagnetic spectrum, with a characteristic wavelength of around 1 mm. This radiation is considered a key piece of evidence supporting the Big Bang theory.
What is primordial background radiation?
Primordial background radiation is in actuality Cosmic Microwave Background. To discover just what Cosmic Microwave Background theories are, visit the URL posted below:http://www.astro.ucla.edu/~wright/CMB.html
What is the background noise of the big bang theory?
The Cosmic Microwave Background Radiation was predicted by proponents of Big Bang Cosmology (BBC) about 18 years before it was found. Its existence, isotropy, and spectrum is easy to explain with BBC; pretty much impossible to explain using alternatives.
What is the lowest temperature observed in universe?
The lowest temperature ever observed in the universe is around 2.7 Kelvin (-270.45 degrees Celsius), known as the temperature of the cosmic microwave background radiation, which is a remnant from the Big Bang. It represents the average temperature of space.
Is the product microwave safe as indicated on page 5 of the packaging?
To determine if the product is microwave safe, refer to the information on page 5 of the packaging.
When was the cosmic microwave background radiation first detected?
1965.
What does a microwave telescope allow you to see?
A microwave telescope allows you to see celestial objects and phenomena that emit microwave radiation, such as cosmic microwave background radiation, molecular clouds, and active galactic nuclei. By detecting and studying these microwave emissions, scientists can gain insights into the composition, temperature, and structure of these objects.
What is the average temperature of the universe?
The average temperature of the universe is approximately 2.7 Kelvin (-270.45 degrees Celsius). This temperature is known as the cosmic microwave background radiation, which is the afterglow of the Big Bang.
What are two pieces of evidence that support the Big Bang theory?
Hubble's discovery in the 1920s of a relationship between a galaxy's distance from Earth and its speed; and the discovery in the 1960s of cosmic microwave background radiation.
