Since starting Skeptical Science in 2007, I've been researching how to counter misinformation. One answer is inoculation - you can neutralize misinformation by exposing people to a "weak form of misinformation" (e.g., explain the techniques used to mislead). But how do we put this into practice?
One of the most powerful ways to teach science and counter science denial is in the classroom through misconception-based learning. I've been lucky enough to collaborate with several organizations to provide educational resources using this approach. The Skeptical Science team worked with UQx to develop the online course Making Sense of Climate Science Denial.
Now I'm based in the U.S., I've been lucky enough to collaborate with the National Center for Science Education and the Alliance of Climate Educators to develop a set of lesson plans teaching key facts about climate change while addressing five of the most common climate myths. With Brad Hoge (Director of Teacher Support at NCSE) and teachers from around the country who field-tested the lessons, we'll be presenting a five-part webinar series on how to teach our five lessons.
Each webinar will focus on a single NGSS-aligned lesson plan. You can sign up for free to any or all five to get the full complement of lessons. All participants will receive a certificate that can be used for continuing education units. The webinars will be at 7:00-8:30 pm Eastern Time via Zoom.
Register at https://secure.everyaction.com/EuBowp9HYUmbzuBz8uGZdw2
July 31: Scientific Consensus on Climate Change
In this lesson, students create their own scientific consensus on climate change through direct interpretation with climate data, as well as examining a popular climate myth.
August 7: Climate Models
Some of the most common climate skeptic arguments focus on climate models. In this lesson, students examine climate model data and learn how climate models are developed, as well as debunk common misconceptions about climate models and their capabilities.
August 15: Past vs Present Climate Change
"Climate has always changed. Why is today any different?" With Milankovitch cycles (what?!), ice cores and other paleoclimate data, students explore the logical fallacy behind this misconception.
August 21: Local Climate Impacts
Let's take a gamble... In this lesson, students delve into local impacts of climate change and try their hand at beating the odds to see how climate change really is loading the dice and increasing the odds of more extreme weather.
August 29: Climate Solutions
What do wedges have to do with solving climate change? Turns out, everything. Students play the "Wedges Game" to balance various greenhouse gas-reductions strategies to achieve net zero emissions. Students also explore local climate solutions that works in their community.
from Skeptical Science https://ift.tt/2uTJAzm
Since starting Skeptical Science in 2007, I've been researching how to counter misinformation. One answer is inoculation - you can neutralize misinformation by exposing people to a "weak form of misinformation" (e.g., explain the techniques used to mislead). But how do we put this into practice?
One of the most powerful ways to teach science and counter science denial is in the classroom through misconception-based learning. I've been lucky enough to collaborate with several organizations to provide educational resources using this approach. The Skeptical Science team worked with UQx to develop the online course Making Sense of Climate Science Denial.
Now I'm based in the U.S., I've been lucky enough to collaborate with the National Center for Science Education and the Alliance of Climate Educators to develop a set of lesson plans teaching key facts about climate change while addressing five of the most common climate myths. With Brad Hoge (Director of Teacher Support at NCSE) and teachers from around the country who field-tested the lessons, we'll be presenting a five-part webinar series on how to teach our five lessons.
Each webinar will focus on a single NGSS-aligned lesson plan. You can sign up for free to any or all five to get the full complement of lessons. All participants will receive a certificate that can be used for continuing education units. The webinars will be at 7:00-8:30 pm Eastern Time via Zoom.
Register at https://secure.everyaction.com/EuBowp9HYUmbzuBz8uGZdw2
July 31: Scientific Consensus on Climate Change
In this lesson, students create their own scientific consensus on climate change through direct interpretation with climate data, as well as examining a popular climate myth.
August 7: Climate Models
Some of the most common climate skeptic arguments focus on climate models. In this lesson, students examine climate model data and learn how climate models are developed, as well as debunk common misconceptions about climate models and their capabilities.
August 15: Past vs Present Climate Change
"Climate has always changed. Why is today any different?" With Milankovitch cycles (what?!), ice cores and other paleoclimate data, students explore the logical fallacy behind this misconception.
August 21: Local Climate Impacts
Let's take a gamble... In this lesson, students delve into local impacts of climate change and try their hand at beating the odds to see how climate change really is loading the dice and increasing the odds of more extreme weather.
August 29: Climate Solutions
What do wedges have to do with solving climate change? Turns out, everything. Students play the "Wedges Game" to balance various greenhouse gas-reductions strategies to achieve net zero emissions. Students also explore local climate solutions that works in their community.
from Skeptical Science https://ift.tt/2uTJAzm
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