The scientific method

00:11:48
https://www.youtube.com/watch?v=N6IAzlugWw0

Summary

TLDRThe video introduces the scientific method as a structured yet common-sense approach to understanding the world. It involves making observations, formulating testable hypotheses, conducting experiments, and refining knowledge based on experimental outcomes. Using an example of a pond freezing over before the ocean, the video illustrates the steps: observation, asking questions, creating hypotheses, making predictions, testing those predictions, and refining the hypotheses based on results. It emphasizes reproducibility, critical skepticism, and iterative refinement in scientific discovery. The teachings of Hasan Ibn al-Haytham, an early pioneer of the scientific method, are highlighted, stressing skepticism and self-critique to avoid bias. The method ensures robust foundations for knowledge, advancing understanding with reliable, testable, and widely accepted results.

Takeaways

  • 🔍 The scientific method is a logical approach to exploring scientific questions.
  • 🧪 It begins with making observations and asking questions about phenomena.
  • 💡 A key part of the process is forming a hypothesis that can be tested.
  • ⚖️ The method emphasizes the need for reproducibility of experiments to validate findings.
  • 🔄 Scientific knowledge is refined through iterative testing and experimentation.
  • ❌ Non-testable assumptions, like fairy interventions, are not scientific hypotheses.
  • 🔁 Critical skepticism helps ensure the reliability of scientific conclusions.
  • 🌊 An example given involves testing why ponds freeze faster than oceans due to salt content.
  • 👨‍🔬 Hasan Ibn al-Haytham's insights on skepticism are applicable even today.
  • 📚 Scientific research relies on structured methods to avoid spreading misinformation.

Timeline

  • 00:00:00 - 00:05:00

    The video introduces the scientific method, initially described as intimidating, but ultimately a common-sense way to understand the world. The process involves making observations, asking questions, forming testable explanations (hypotheses), and iterating based on results. A practical example is given about why a pond freezes before the ocean. A hypothesis, such as saltwater having a lower freezing point than freshwater, is tested to validate or refute it. The emphasis is on testability of hypotheses, ruling out non-observable explanations like magic as unscientific.

  • 00:05:00 - 00:11:48

    The video continues by illustrating the design of an experiment to test the hypothesis related to freezing points. By using controlled environments with cups of distilled and salt water, predictions about freezing are tested. Positive results support the hypothesis while negative results necessitate reassessment. The essence of the scientific method is refinement and iteration, improving understanding through logical reasoning and testing. Skepticism and reproducibility are highlighted as fundamental aspects, supporting the idea that the scientific method builds a strong knowledge foundation, as emphasized by historical figures like Hasan Ibn al-Haytham.

Mind Map

Video Q&A

  • What is the scientific method?

    The scientific method is a structured way of investigating phenomena, coming up with testable explanations (hypotheses), and conducting experiments to validate or refute these hypotheses.

  • Why is the scientific method important?

    It ensures a systematic approach to gaining knowledge, where ideas must be tested and validated to prevent baseless assumptions and ensure a strong foundation for future knowledge.

  • What is a testable explanation in the scientific method?

    A testable explanation, or hypothesis, is an educated guess that must be possible to test through experimentation and observation.

  • Why can't "a fairy froze the pond" be a scientific hypothesis?

    It can't be tested or observed under controlled conditions, which is a key requirement for a scientific hypothesis.

  • What is the importance of reproducibility in experiments?

    Reproducibility ensures that any experiment can be repeated with the same results by others, confirming the reliability and validity of the findings.

  • Who is considered a father of the scientific method?

    Hasan Ibn al-Haytham, also known as Alhazen, is often regarded as a key figure in developing the scientific method.

  • What did Hasan Ibn al-Haytham say about scientific investigation?

    He emphasized skepticism, urging scientists to challenge and critically assess existing writings and even their own beliefs to avoid falling into prejudice or leniency.

  • What is an example used in the video to explain the scientific method?

    The video uses the example of a pond freezing earlier and at higher temperatures than the ocean to illustrate the scientific method.

  • What is a hypothesis in the context of the scientific method?

    A hypothesis is a proposed explanation made on the basis of limited evidence as a starting point for further investigation.

  • How does critical skepticism play a role in scientific research?

    Critical skepticism involves questioning assumptions and evidence rigorously to avoid misconceptions and ensure accurate scientific knowledge.

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  • 00:00:00
    - [Voiceover] Let's explore the scientific
  • 00:00:04
    scientific method
  • 00:00:07
    which, at first might seem a little
  • 00:00:09
    bit intimidating, but when we walk
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    through it, you'll see that it's actually
  • 00:00:13
    almost a common-sense way of looking
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    at the world and making progress in our
  • 00:00:17
    understanding of the world and feeling good
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    about that progress of our understanding
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    of the world.
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    So, let's just use a tangible example
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    here, and we'll walk through what we could
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    consider the steps of the scientific
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    method, and you'll see different steps
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    articulated in different ways, but they all
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    boil down to the same thing.
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    You observe something about reality, and you say,
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    well, let me try to come up with
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    a reason for why that observation
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    happens, and then you try to test that explanation.
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    It's very important that you come up with
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    explanations that you can test, and then you
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    can see if they're true, and then based on
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    whether they're true, you keep iterating.
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    If it's not true, you come up with another explanation.
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    If it is true, but it doesn't explain everything,
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    well once again, you try to explain more of it.
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    So, as a tangible example, let's say that you live in,
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    in I don't know, northern Canada or something, and let's
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    say that you live near the beach, but there's
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    also a pond near your house, and you notice that
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    the pond, it tends to freeze over sooner in
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    the Winter than the ocean does.
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    It does that faster and even does it at higher
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    temperatures than when the ocean seems
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    to freeze over.
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    So, you could view that as your observation.
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    So, the first step is you're making an observation.
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    Observation.
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    In our particular case is that the pond freezes
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    over at higher temperatures than the ocean
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    does, and it freezes over sooner in the Winter.
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    Well, the next question that you might
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    wanna, or the next step you could view as
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    a scientific method.
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    It doesn't have to be this regimented, but this
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    is a structured way of thinking about it.
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    Well, ask yourself a question.
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    Ask a question.
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    Why does, so in this particular question, or in
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    this particular scenario, why does the pond tend
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    to freeze over faster and at higher temperatures
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    than the ocean does?
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    Well, you then try to answer that question, and this
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    is a key part of the scientific method
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    is what you do in this third step
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    is that you try to create an explanation, but what's
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    key is that it is a testable explanation.
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    So, you try to, you create a testable
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    explanation.
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    Testable explanation, and this is kind of the
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    core, one of the core pillars of the scientific
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    method, and this testable explanation is called
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    your hypothesis.
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    Your hypothesis.
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    And so, in this particular case, a testable
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    explanation could be that, well the ocean is
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    made up of salt water, and this pond is
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    fresh water, so your testable explanation
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    could be salt water,
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    salt water has lower freezing point.
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    Has lower freezing,
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    freezing point.
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    Lower freezing point, so it takes colder
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    temperatures to freeze it than fresh water.
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    Than fresh water.
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    So, this, right over here, this would
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    be a good hypothesis.
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    It doesn't matter whether the hypothesis is
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    actually true or not.
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    We haven't actually run the experiment, but it's
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    a good one, because we can construct an
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    experiment that tests this very well.
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    Now, what would be an example of a bad
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    hypothesis or of something that you couldn't
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    even necessarily consider as part of the
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    scientific method?
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    Well, you could say that there is a
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    fairy that blesses that, let's
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    say that performs magic
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    performs magic
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    on the pond
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    to freeze it faster.
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    Freeze it faster.
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    And, the reason why this isn't so good is that
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    this is not so testable, because it's depending
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    on this fairy, and you don't know how to convince
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    the fairy to try to do it again.
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    You haven't seen the fairy.
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    You haven't observed the fairy.
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    It's not based on any observation, and so
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    this one right over here, this would not
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    be a good hypothesis for the scientific
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    method, so we would wanna rule that one out.
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    So, let's go back to our testable explanation,
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    our hypothesis.
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    Salt water has a lower freezing point than fresh water.
  • 00:04:38
    Well, the next step would be to
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    make a prediction based on that, and this is the
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    part where we're really designing an experiment.
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    So, you could just view all of this as designing.
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    Let me do this in a different color.
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    Where we wanna design an experiment.
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    Design an experiment.
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    And in that experiments lets say, and let's see,
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    the next two steps I will put as
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    part of this experimental.
  • 00:05:09
    Whoops.
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    I messed up.
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    Let me, I did my undo step.
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    So, the next part that I will do is the experiment.
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    Experiment.
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    And there you go.
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    So, the first thing is, we'll say I take, you know,
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    there's all sorts of things that are going on outside.
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    The ocean has waves.
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    You know, maybe there are boats going by
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    that might potentially break up the ice.
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    So, I just wanna isolate that one variable that
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    I care about, whether something is salt
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    water or not, and I want a control for
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    everything else.
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    So, I want a control for whether there's
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    waves or not or whether there's wind or any
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    other possible explanation for why the
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    pond freezes over faster.
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    So, what I do, in a very controlled environment
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    I take two cups.
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    I take two cups.
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    That's one cup and two cups, and I put
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    water in those cups.
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    I put water in those cups.
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    Now, let's say I start with distilled water, but then
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    this one stays, the first one right over here
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    stays distilled, and distilled means that through
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    evaporation I've taken out all of the impurities
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    of that water, and in the second one
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    I take that distilled water, and I throw a bunch
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    of salt in it.
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    So, this one is fresh, very fresh, and in fact,
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    far fresher than you would find in a pond.
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    It's distilled water.
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    And then this is over here, this is salt water.
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    So, you wouldn't see the salt, but just for our
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    visuals, you depict it.
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    Then we would make a prediction, and we
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    could even view this as Step Four,
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    our prediction.
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    We predict that the fresh water will freeze at
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    a higher temperature than the salt water.
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    So, we'll prediction, let's say the fresh freezes
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    fresh freezes
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    at zero degrees Celsius,
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    but salt doesn't.
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    Salt water doesn't.
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    Whoop, not sat.
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    Salt water doesn't.
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    So, what you then do is that you test your prediction.
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    So, then you test it.
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    And how would you test it?
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    Well, you could have a very accurate freezer that
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    is exactly at zero degrees Celsius, and you put
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    both of these cups into it, and you wanna make
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    sure that they're identical and everything where
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    you control for everything else.
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    You control for the surface area.
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    You control for the material of the glass.
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    You control for how much water there is.
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    But, then you test it.
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    Then you see what happened from your test.
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    Leave it in overnight, and if you see that the
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    fresh water has frozen over, so it's frozen
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    over, but the salt water hasn't, well then that
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    seems to validate your testable explanation
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    that salt water has a lower freezing point than
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    fresh water, and if it didn't freeze, well it's like,
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    okay, well may that, or if there isn't a difference,
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    maybe either both of them didn't freeze or both
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    of them did freeze, then you might say, well, okay,
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    that wasn't a good explanation.
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    I have to find another explanation for why
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    the ocean seems to freeze at a lower temperature.
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    Or, you might say, well that's part of the
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    explanation, but that by itself doesn't
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    explain it, or you might now wanna ask even
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    further questions about, well, when does
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    salt water freeze, and what else is it dependent on?
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    Do the waves have an impact?
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    Does the wind have an impact?
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    So, then you can go into the process
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    of iterating and refining.
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    So, you then refine
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    refine
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    refine and iterate on the process.
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    When I'm talking about iterate, you're
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    doing it over again, but then, based on
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    the things that you've learned.
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    So, you might come up with a more refined
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    testable explanation, or you might come up
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    with more experiments that could get you
  • 00:08:51
    a better understanding of the difference
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    between fresh and salt water, or you might
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    try to come up with experiments for why
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    exactly, what is it about the salt that makes
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    this water harder to freeze?
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    So, that's essentially the essence of
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    the scientific method, and I wanna emphasize
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    this isn't some, you know, bizarre thing.
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    This is logical reasoning.
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    Make a testable explanation for something
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    that you're observing in the world, and then
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    you test it, and you see if your explanation
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    seems to hold up based on the data from your
  • 00:09:22
    test, and then whether or not it holds up,
  • 00:09:24
    you then keep going, and you keep refining, and you
  • 00:09:27
    keep learning more about the world, and the
  • 00:09:29
    reason why this is better than just saying, oh well,
  • 00:09:31
    look, okay, I see the pond has frozen over and the
  • 00:09:33
    ocean hasn't, it must be the salt water, and you know,
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    I just feel good about that, is that you can't
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    feel good about that.
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    There's a million different reasons, and you
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    shouldn't just go on your gut, 'cause at some
  • 00:09:43
    point, your gut might be right 90% of
  • 00:09:45
    the time, but that 10% that it's wrong, you're
  • 00:09:47
    going to be passing on knowledge or assumptions
  • 00:09:51
    about the world that aren't true, and then other
  • 00:09:53
    people are going to build on that, and then all
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    of our knowledge is going to be built on kind of
  • 00:09:57
    a shaky foundation, and so the scientific method
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    ensures that our foundation is strong.
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    And I'll leave you with the gentleman who's often
  • 00:10:07
    considered to be the father, or one of the
  • 00:10:10
    fathers, of the scientific method.
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    He lived in Cairo, and in what is now Iraq,
  • 00:10:16
    oh nearly 1,000 or roughly 1,000 years ago, and he
  • 00:10:20
    was a famous astronomer and physist and mathematician.
  • 00:10:24
    And his quote is a pretty powerful one, 'cause
  • 00:10:26
    I think it even stands today:
  • 00:10:28
    "The duty of the man who investigates the writings
  • 00:10:31
    of scientists, if learning the truth is his goal, ..."
  • 00:10:36
    Let me start over, just so I can get the dramatic
  • 00:10:38
    effect right.
  • 00:10:39
    "The duty of the man who investigates the writings
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    of scientists, if learning the truth is his goal,
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    is to make himself an enemy of all that
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    he reads, and attack it from every side.
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    He should also suspect himself as he performs
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    his critical examination of it, so that he may
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    avoid falling into either prejudice or leniency."
  • 00:11:02
    Hasan Ibn al-Haytham, and his Latinized name
  • 00:11:05
    is Alhazen.
  • 00:11:07
    So, he's saying be skeptical, and not just skeptical
  • 00:11:09
    of what other people write and read, but even
  • 00:11:12
    of yourself, and another aspect of the scientific
  • 00:11:15
    method which is super important is, if someone
  • 00:11:17
    says they made a hypothesis and they tested and they
  • 00:11:19
    got a result, in order for that to be a good test and in
  • 00:11:23
    order for that to be a good hypothesis, that experiment
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    has to be reproducible.
  • 00:11:27
    Someone can't say, oh it's only, you know, a certain
  • 00:11:28
    time that only happens once every 100 years and not,
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    that that's why it happened that day.
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    It has to be reproducible, and reproducible
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    is key, because then another skeptical scientist
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    like yourself can say, let me see if I can
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    reproduce it.
  • 00:11:40
    Let me not just believe it, because that person
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    looks like they're smart, and they said that
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    it is true.
Tags
  • scientific method
  • hypothesis
  • reproducibility
  • experiment
  • skepticism
  • testable explanation
  • Hasan Ibn al-Haytham
  • scientific discovery
  • observation
  • knowledge foundation