12 Unit 2: Closing — The Probability of Life

Develop an argument: Does intelligent life exist outside Earth?

Author

Earth & Space Science

HS-ESS1-6 HS-ESS2-7 Performance Task 1–2 Days

👽 Are We Alone? Make Your Argument.

13 The Performance Task

You have gathered evidence across this entire unit about the conditions necessary for life, the history of our solar system, the origin of the universe, and the threats to life from space. Now it’s time to construct a scientific argument.

13.1 Your Task

13.1.1 🎯 The Claim

Using evidence from this unit, develop an argument about the probability of intelligent life existing somewhere outside Earth.

You must address TWO questions:

Why did it take 4.5 billion years for intelligent life to emerge on Earth?
Is it likely that intelligent life exists elsewhere in the universe?

Your argument must use the CER Framework: Claim → Evidence → Reasoning

14 Evidence Review

Let’s review the key evidence from each chapter.

14.1 Chapter Evidence Cards

14.1.1 🌑 Chapter 1: Stability of the Solar System

Key Evidence:

Earth has only ~128 visible craters vs. 1,000,000+ on the Moon
Earth’s surface is constantly recycled by plate tectonics, weathering, erosion, and volcanism
Water has unique properties (density anomaly, high heat capacity, universal solvent)
The rock cycle continuously renews Earth’s surface
All solar system objects formed ~4.57 billion years ago

What this means for life: Earth’s active geology creates a continuously renewed surface with liquid water — conditions that support life but also erase the geological record.

14.1.2 🦠 Chapter 2: Coevolution of Earth and Life

Key Evidence:

Life appeared within ~700 million years of Earth’s formation
Photosynthesis transformed Earth’s atmosphere (Great Oxidation Event)
Five mass extinctions each wiped out 60–96% of species
Each extinction was followed by rapid diversification of survivors
Plants colonizing land dramatically altered the atmosphere, soil, and climate
CO₂ levels have varied from 7,000 ppm to 300 ppm over 500 million years

What this means for life: Life and Earth are a coupled system — life transforms its planet, and the planet shapes the evolution of life. Mass extinctions, while devastating, were necessary for the evolution of complex and intelligent life.

14.1.3 💥 Chapter 3: Origin of the Universe

Key Evidence:

The universe is 13.8 billion years old (redshift, CMB, H/He ratio)
There are ~200 billion trillion stars in the observable universe
Heavy elements needed for rocky planets and life required multiple generations of stars
Our solar system formed 9.2 billion years after the Big Bang
The CMB shows the universe was once incredibly hot and dense

What this means for life: The universe is vast and old — but it took billions of years to produce the raw materials for life. Time and stellar recycling were prerequisites.

14.1.4 ☄️ Chapter 4: Asteroid Orbits

Key Evidence:

Asteroid impacts follow predictable orbital mechanics (Kepler’s Laws, Newton’s Gravity)
The Late Heavy Bombardment sterilized Earth’s surface repeatedly
The Chicxulub impact killed the dinosaurs but enabled mammal diversification
Apophis will pass closer than geostationary satellites in 2029
DART mission proved kinetic impact deflection works
~60% of city-killer asteroids remain undiscovered

What this means for life: Asteroid impacts are both destroyers and enablers of evolution. A civilization must survive long enough to develop planetary defense.

15 Building Your Argument

15.1 CER Framework

15.1.1 📋 Step 1: CLAIM

Write a clear, specific claim about the probability of intelligent life existing outside Earth. Your claim should be arguable — someone could reasonably disagree with you.

Example claims (choose one or write your own):

“Intelligent life almost certainly exists elsewhere in the universe because…”
“Intelligent life is extremely rare, possibly unique to Earth, because…”
“Simple life is likely common, but intelligent life is extraordinarily rare because…”

15.1.2 📊 Step 2: EVIDENCE

Cite at least 4 specific pieces of evidence from the unit — at least one from each chapter. Use data, numbers, and specific examples.

Chapter	Evidence	Supports claim because…
Solar System
Coevolution
Big Bang
Asteroids

15.1.3 🧠 Step 3: REASONING

Explain how your evidence supports your claim. Connect the dots between different pieces of evidence. Address these questions:

What conditions were necessary for intelligent life on Earth?
How likely are those conditions to occur on other planets?
What are the biggest obstacles to intelligent life evolving?
How does the Fermi Paradox factor into your argument?

16 The Drake Equation

Code

{
  const N = R_star * f_p * n_e * f_l * f_i * f_c * L;
  
  const div = d3.create("div")
    .style("padding", "25px")
    .style("border-radius", "15px")
    .style("background", "linear-gradient(135deg, #00cec9, #6c5ce7)")
    .style("color", "white")
    .style("text-align", "center");

  div.append("h3").style("margin-top", "0").style("font-family", "Space Grotesk, sans-serif")
    .text("The Drake Equation");
  div.append("p").style("font-size", "1.1em")
    .text("N = R* × fp × ne × fl × fi × fc × L");
  div.append("h2").style("font-size", "2.5em").style("margin", "15px 0")
    .text(`N ≈ ${N < 1 ? N.toFixed(4) : N < 100 ? N.toFixed(1) : Math.round(N).toLocaleString()}`);
  div.append("p").style("font-size", "1.2em").style("font-weight", "bold")
    .text(N < 1 ? "Less than 1 — we might be alone in the galaxy" :
          N < 10 ? `About ${Math.round(N)} detectable civilization(s) in our galaxy right now` :
          N < 1000 ? `About ${Math.round(N)} detectable civilizations in our galaxy` :
          `${Math.round(N).toLocaleString()} civilizations — the galaxy should be buzzing!`);

  if (N > 1000) {
    div.append("p").style("font-style", "italic").style("margin-top", "10px")
      .text("If N is this large... where is everybody? (Fermi Paradox)");
  }

  return div.node();
}

16.0.1 💡 The Drake Equation

The Drake Equation estimates the number of detectable civilizations in the Milky Way. We know the first few factors fairly well ($R^*$, $f_p$), but the later factors ($f_i$, $f_c$, $L$) are almost completely unknown.

Your job: Use what you’ve learned in this unit to make informed estimates for each factor, and defend your choices with evidence.

17 Reflection

17.0.1 📝 Final Reflection

How has your thinking about life in the universe changed since the beginning of this unit?
Which piece of evidence was most surprising or changed your perspective the most?
Look back at the questions you wrote on the Driving Question Board at the start. Can you answer them now?
What new questions do you have that we didn’t answer in this unit?

17.0.2 📋 Performance Task Checklist

Before submitting, make sure your argument:

Makes a clear, specific claim about the probability of intelligent life
Uses at least 4 pieces of evidence (one from each chapter)
Explains how each piece of evidence supports the claim
Addresses the Fermi Paradox (if there are so many stars and planets, where is everybody?)
Uses the Drake Equation with your estimated values
Considers counterarguments — what would someone who disagrees say?
Is written for a scientific audience (precise language, specific numbers)

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Make Your Argument.</div> # The Performance Task You have gathered evidence across this entire unit about the conditions necessary for life, the history of our solar system, the origin of the universe, and the threats to life from space. Now it's time to **construct a scientific argument**. ## Your Task ::: {.claim-box} ### 🎯 The Claim Using evidence from this unit, **develop an argument** about the probability of intelligent life existing somewhere outside Earth. You must address TWO questions: 1. **Why did it take 4.5 billion years for intelligent life to emerge on Earth?** 2. **Is it likely that intelligent life exists elsewhere in the universe?** Your argument must use the **CER Framework**: Claim → Evidence → Reasoning ::: # Evidence Review Let's review the key evidence from each chapter. ```{ojs} //| echo: false Plot = require("@observablehq/plot") d3 = require("d3@7") ``` ## Chapter Evidence Cards ::: {.evidence-box} ### 🌑 Chapter 1: Stability of the Solar System **Key Evidence:** - Earth has only ~128 visible craters vs. 1,000,000+ on the Moon - Earth's surface is constantly recycled by plate tectonics, weathering, erosion, and volcanism - Water has unique properties (density anomaly, high heat capacity, universal solvent) - The rock cycle continuously renews Earth's surface - All solar system objects formed ~4.57 billion years ago **What this means for life:** Earth's active geology creates a continuously renewed surface with liquid water — conditions that support life but also erase the geological record. ::: ::: {.evidence-box} ### 🦠 Chapter 2: Coevolution of Earth and Life **Key Evidence:** - Life appeared within ~700 million years of Earth's formation - Photosynthesis transformed Earth's atmosphere (Great Oxidation Event) - Five mass extinctions each wiped out 60–96% of species - Each extinction was followed by rapid diversification of survivors - Plants colonizing land dramatically altered the atmosphere, soil, and climate - CO₂ levels have varied from 7,000 ppm to 300 ppm over 500 million years **What this means for life:** Life and Earth are a coupled system — life transforms its planet, and the planet shapes the evolution of life. Mass extinctions, while devastating, were necessary for the evolution of complex and intelligent life. ::: ::: {.evidence-box} ### 💥 Chapter 3: Origin of the Universe **Key Evidence:** - The universe is 13.8 billion years old (redshift, CMB, H/He ratio) - There are ~200 billion trillion stars in the observable universe - Heavy elements needed for rocky planets and life required multiple generations of stars - Our solar system formed 9.2 billion years after the Big Bang - The CMB shows the universe was once incredibly hot and dense **What this means for life:** The universe is vast and old — but it took billions of years to produce the raw materials for life. Time and stellar recycling were prerequisites. ::: ::: {.evidence-box} ### ☄️ Chapter 4: Asteroid Orbits **Key Evidence:** - Asteroid impacts follow predictable orbital mechanics (Kepler's Laws, Newton's Gravity) - The Late Heavy Bombardment sterilized Earth's surface repeatedly - The Chicxulub impact killed the dinosaurs but enabled mammal diversification - Apophis will pass closer than geostationary satellites in 2029 - DART mission proved kinetic impact deflection works - ~60% of city-killer asteroids remain undiscovered **What this means for life:** Asteroid impacts are both destroyers and enablers of evolution. A civilization must survive long enough to develop planetary defense. ::: # Building Your Argument ## CER Framework ::: {.claim-box} ### 📋 Step 1: CLAIM Write a clear, specific claim about the probability of intelligent life existing outside Earth. Your claim should be **arguable** — someone could reasonably disagree with you. **Example claims (choose one or write your own):** - "Intelligent life almost certainly exists elsewhere in the universe because..." - "Intelligent life is extremely rare, possibly unique to Earth, because..." - "Simple life is likely common, but intelligent life is extraordinarily rare because..." ::: ::: {.evidence-box} ### 📊 Step 2: EVIDENCE Cite **at least 4 specific pieces of evidence** from the unit — at least one from each chapter. Use data, numbers, and specific examples. | Chapter | Evidence | Supports claim because... | |---------|----------|--------------------------| | Solar System | | | | Coevolution | | | | Big Bang | | | | Asteroids | | | ::: ::: {.reasoning-box} ### 🧠 Step 3: REASONING Explain **how** your evidence supports your claim. Connect the dots between different pieces of evidence. Address these questions: 1. What conditions were necessary for intelligent life on Earth? 2. How likely are those conditions to occur on other planets? 3. What are the biggest obstacles to intelligent life evolving? 4. How does the Fermi Paradox factor into your argument? ::: # The Drake Equation ```{ojs} //| echo: false viewof R_star = Inputs.range([1, 20], {label: "R* — Stars formed per year:", step: 0.5, value: 7}) ``` ```{ojs} //| echo: false viewof f_p = Inputs.range([0.01, 1], {label: "fp — Fraction with planets:", step: 0.01, value: 0.5}) ``` ```{ojs} //| echo: false viewof n_e = Inputs.range([0.01, 5], {label: "ne — Habitable planets per star:", step: 0.01, value: 0.2}) ``` ```{ojs} //| echo: false viewof f_l = Inputs.range([0.001, 1], {label: "fl — Fraction where life starts:", step: 0.001, value: 0.1}) ``` ```{ojs} //| echo: false viewof f_i = Inputs.range([0.001, 1], {label: "fi — Fraction with intelligent life:", step: 0.001, value: 0.01}) ``` ```{ojs} //| echo: false viewof f_c = Inputs.range([0.001, 1], {label: "fc — Fraction that communicate:", step: 0.001, value: 0.1}) ``` ```{ojs} //| echo: false viewof L = Inputs.range([100, 100000], {label: "L — Years civilization lasts:", step: 100, value: 10000}) ``` ```{ojs} //| echo: false { const N = R_star * f_p * n_e * f_l * f_i * f_c * L; const div = d3.create("div") .style("padding", "25px") .style("border-radius", "15px") .style("background", "linear-gradient(135deg, #00cec9, #6c5ce7)") .style("color", "white") .style("text-align", "center"); div.append("h3").style("margin-top", "0").style("font-family", "Space Grotesk, sans-serif") .text("The Drake Equation"); div.append("p").style("font-size", "1.1em") .text("N = R* × fp × ne × fl × fi × fc × L"); div.append("h2").style("font-size", "2.5em").style("margin", "15px 0") .text(`N ≈ ${N < 1 ? N.toFixed(4) : N < 100 ? N.toFixed(1) : Math.round(N).toLocaleString()}`); div.append("p").style("font-size", "1.2em").style("font-weight", "bold") .text(N < 1 ? "Less than 1 — we might be alone in the galaxy" : N < 10 ? `About ${Math.round(N)} detectable civilization(s) in our galaxy right now` : N < 1000 ? `About ${Math.round(N)} detectable civilizations in our galaxy` : `${Math.round(N).toLocaleString()} civilizations — the galaxy should be buzzing!`); if (N > 1000) { div.append("p").style("font-style", "italic").style("margin-top", "10px") .text("If N is this large... where is everybody? (Fermi Paradox)"); } return div.node(); } ``` ::: {.key-idea} ### 💡 The Drake Equation The Drake Equation estimates the number of detectable civilizations in the Milky Way. We know the first few factors fairly well ($R^*$, $f_p$), but the later factors ($f_i$, $f_c$, $L$) are almost completely unknown. **Your job**: Use what you've learned in this unit to make informed estimates for each factor, and defend your choices with evidence. ::: # Reflection ::: {.student-task} ### 📝 Final Reflection 1. How has your thinking about life in the universe changed since the beginning of this unit? 2. Which piece of evidence was most surprising or changed your perspective the most? 3. Look back at the questions you wrote on the Driving Question Board at the start. Can you answer them now? 4. What new questions do you have that we didn't answer in this unit? ::: ::: {.check-understanding} ### 📋 Performance Task Checklist Before submitting, make sure your argument: - [ ] Makes a clear, specific **claim** about the probability of intelligent life - [ ] Uses **at least 4 pieces of evidence** (one from each chapter) - [ ] **Explains** how each piece of evidence supports the claim - [ ] Addresses the **Fermi Paradox** (if there are so many stars and planets, where is everybody?) - [ ] Uses the **Drake Equation** with your estimated values - [ ] Considers **counterarguments** — what would someone who disagrees say? - [ ] Is written for a **scientific audience** (precise language, specific numbers) :::