Unit 2 Space Review

The Atom & Light

Spectra & the Electromagnetic Spectrum

The Sun & Fusion

Properties of Stars

Star Life Cycles

100

What is a photon?

A bundle or packet of light

100

What does the electromagnetic spectrum show?

The range of frequencies, wavelengths, and energies of electromagnetic waves.

100

What is nuclear fusion?

The process where two nuclei combine to form a larger nucleus, releasing energy.

100

What color are the hottest stars?

Blue

100

What is a nebula?

A cloud of gas and dust where stars form.

200

What makes each element’s spectrum unique?

Each element has different amounts of energy given off in the form of light.

200

Which color of visible light has the shortest wavelength and highest energy?

Blue or Violet

200

What element is formed when hydrogen atoms fuse in the Sun?

Helium

200

What does the Hertzsprung–Russell (H–R) diagram show?

The relationship between a star’s brightness and temperature.

200

What is the first stage of a star’s life cycle?

Nebula → Protostar.

300

What does the atomic number of an element represent?

The number of protons in the nucleus

300

What does a spectrograph do?

Breaks light into different wavelengths to analyze the composition of distant objects.

300

Where does fusion occur in the Sun?

In the core

300

What is luminosity?

The total amount of energy or brightness a star emits.

300

What are the stages of an average star’s life?

Main sequence → Red giant → Planetary nebula → White dwarf.

400

What is the process of identifying elements based on their light spectrum called?

Spectroscopy

400

What can spectra tell scientists about a star?

Its composition, temperature, and motion.

400

What type of energy travels through the Sun’s radiative zone?

Electromagnetic energy.

400

Arrange star colors from hottest to coolest.

Blue, White, Yellow, Orange, Red (BWYOR).

400

What are the final stages of a massive star’s life?

Red supergiant → Supernova → Neutron star or black hole.

500

How can scientists determine what elements a star is made of?

By analyzing the emission or absorption lines in its spectrum.

500

Why must instruments that detect gamma rays or x-rays be placed in space?

Earth’s atmosphere absorbs these high-energy rays.

500

Why can fusion only occur in stars?

Extremely high temperatures and pressures are required to overcome repulsion between atomic nuclei.

500

What type of stars are the largest and brightest?

Supergiants

500

What causes a supernova explosion?

When a massive star’s core collapses after fusing iron, producing a shock wave.