QUESTION IMAGE
Question
connect to the performance task: star life cycles
which star(s) are likely to have a nearby earth - like planet?
- use a blank circle to record the data for each star in this data set. place them all on the star chart to compare them to our sun.
- use the star chart to make a claim about the color and the expected life span of each star based on where you placed it on the chart.
- decide based on the data whether you think it is possible that the star could have a nearby habitable planet.
| star name | luminosity ($l_{sun}$) | temperature (kelvin) | color | expected life span (years) | could this star support a habitable planet? |
|---|---|---|---|---|---|
| kepler - 442 | .117 | 4,402 | $square$ yes $square$ maybe $square$ no | ||
| kepler - 432 | 9.21 | 4,995 | $square$ yes $square$ maybe $square$ no | ||
| kepler - 18 | 2.69 | 5,345 | $square$ yes $square$ maybe $square$ no | ||
| eta carinae | 5,000,000 | 40,000 | $square$ yes $square$ maybe $square$ no | ||
| kepler 186 | .055 | 3,755 | $square$ yes $square$ maybe $square$ no | ||
| trappist 1 | 0.0005 | 2,511 | $square$ yes $square$ maybe $square$ no | ||
| hd 20782 | 7.38 | 5,578 | $square$ yes $square$ maybe $square$ no | ||
| hd 17156 | 1.12 | 6,100 | $square$ yes $square$ maybe $square$ no |
Step1: Determine star - color relationship
Stars' colors are related to their temperatures. Generally, hotter stars are bluer and cooler stars are redder. For example, blue - white stars are very hot, and red stars are cooler.
Step2: Estimate life - span based on luminosity
More luminous stars use up their nuclear fuel faster and have shorter life - spans. Less luminous stars have longer life - spans.
Step3: Evaluate habitability
A star is more likely to support a habitable planet if it has a stable energy output over a long period (long life - span), and its luminosity and temperature allow for a habitable zone where liquid water could exist on a planet's surface.
- Kepler - 79: Luminosity close to the Sun, relatively high temperature. It could potentially have a habitable planet as its characteristics are somewhat similar to the Sun's, so Maybe.
- Kepler - 442: Lower luminosity and temperature. It could have a long life - span and might have a habitable zone, so Maybe.
- Kepler - 432: High luminosity, which means a shorter life - span. It is less likely to support a long - term habitable planet, so No.
- Kepler - 18: Higher luminosity than the Sun, shorter life - span likely, so No.
- Eta Carinae: Extremely high luminosity and temperature, very short life - span, so No.
- Kepler 186: Low luminosity and temperature, long life - span possible, so Maybe.
- Trappist 1: Very low luminosity and temperature, but has known Earth - sized planets in its habitable zone, so Yes.
- HD 20782: High luminosity, shorter life - span, so No.
- HD 17156: Luminosity and temperature similar to the Sun in some respects, so Maybe.
| Star Name | Color | Expected Life Span (years) | Could this star support a habitable planet? |
|---|---|---|---|
| Kepler - 442 | Red (due to low temperature) | Long | Maybe |
| Kepler - 432 | Red (despite high luminosity, temperature is not extremely high for blue - white) | Short | No |
| Kepler - 18 | Blue - white | Short | No |
| Eta Carinae | Blue - white | Very short | No |
| Kepler 186 | Red | Long | Maybe |
| Trappist 1 | Red | Long | Yes |
| HD 20782 | Blue - white | Short | No |
| HD 17156 | Blue - white | Medium | Maybe |
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| Star Name | Color | Expected Life Span (years) | Could this star support a habitable planet? |
|---|---|---|---|
| Kepler - 442 | Red | Long | Maybe |
| Kepler - 432 | Red | Short | No |
| Kepler - 18 | Blue - white | Short | No |
| Eta Carinae | Blue - white | Very short | No |
| Kepler 186 | Red | Long | Maybe |
| Trappist 1 | Red | Long | Yes |
| HD 20782 | Blue - white | Short | No |
| HD 17156 | Blue - white | Medium | Maybe |