Stellar Encyclopedia

These luminous balls of gas helped ancient explorers navigate the seas and now help modern-day scientists navigate the universe.

Gently singing Twinkle, twinkle, little star may lull a baby to sleep, but beyond the confines of Earth’s atmosphere, the words aren’t exactly accurate. A correct, albeit less soothing, rendition might be: Emit, emit, gigantic ball of gas.

Birth Of A Star

The life cycle of a star spans billions of years. As a general rule, the more massive the star, the shorter its life span.

Birth takes place inside hydrogen-based dust clouds called nebulae. Over the course of thousands of years, gravity causes pockets of dense matter inside the nebula to collapse under their own weight.

One of these contracting masses of gas, known as a protostar, represents a star’s nascent phase. Because the dust in the nebulae obscures them, protostars can be difficult for astronomers to detect.

As a protostar gets smaller, it spins faster because of the conservation of angular momentum—the same principle that causes a spinning ice skater to accelerate when she pulls in her arms. Increasing pressure creates rising temperatures, and during this time, a star enters what is known as the relatively brief T Tauri phase.

Millions of years later, when the core temperature climbs to about 27 million degrees Fahrenheit (15 million degrees Celsius), nuclear fusion begins, igniting the core and setting off the next—and longest—stage of a star’s life, known as its main sequence.

Most of the stars in our galaxy, including the sun, are categorized as main sequence stars. They exist in a stable state of nuclear fusion, converting hydrogen to helium and radiating x-rays. This process emits an enormous amount of energy, keeping the star hot and shining brightly.

The Life Cycle of a Star

Variable Stars:

any star whose observed light varies notably in intensity. The changes in brightness may be periodic, semiregular, or completely irregular.

We study those variable stars by observing the brightness (magnitude) intensity of each individual star for a specific time span to create what is called a light curve.

What is a Light Curve?

Light curves are graphs that show the brightness of an object over a period of time. In the study of objects which change their brightness over time, such as novae, supernovae, and variable stars, the light curve is a simple but valuable tool to a scientist.

If we had the information of a particular light source in the sky like in the following table, then we could plot a simple light curve.

What Can We Learn from a Light Curve?

The record of changes in magnitudes that a light curve provides can help astronomers understand processes at work within the object they are studying and categorize stellar events.

We know generally what light curves look like for a set of objects, so when we plot a new light curve, we can compare it to those standard light curves to possibly identify the type of object we're observing.

Types of Variable Stars:

Cepheid: Cepheid variable stars are intrinsic variables that pulsate in a predictable way. In addition, a Cepheid star's period (how often it pulsates) is directly related to its luminosity or brightness. They are hot and massive – five to twenty times as much mass as our Sun – and are known for their tendency to pulsate radially and vary in both diameter and temperature.

Pulsating: Pulsating variable stars are intrinsic variables as their variation in brightness is due to a physical change within the star. In the case of pulsating variables, this is due to the periodic expansion and contraction of the surface layers of the stars. (cepheid is a part of pulsating.

Cataclysmic: Cataclysmic Variable stars (CVs) are binary star systems where an ultra-dense star (a white dwarf) pulls material off of its companion star, steadily consuming it over time.

Characteristics and composition of variable stars:

There are 2 categories of variable stars:

Intrinsic variables: stars whose luminosity physically changes due to pulsations, eruptions, or through swelling and shrinking.
Extrinsic variables: stars that change in brightness because of being eclipsed by stellar rotation or by another star or planet.

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