November 8, 2016

Math Mindsets Matter: How Can Teachers Foster a Growth Mindset in Math?

Oh no! I've tumbled down into the rabbit hole of growth mindset research, never to be seen again! All kidding aside, the more I learn about growth mindset, the more fascinated I am with this topic, and the more I realize I have yet to learn.

But as fascinated as I am with growth mindset, I'm even more intrigued by the challenge of putting these research findings into practice. In other words...

How can we use the most current brain research to foster a growth mindset in our students... and in ourselves?

Mathematics is arguably the subject where mindset matters the most, especially when you consider how many adults have experienced math anxiety in the past. Take me, for instance. I always excelled in math, but I'll never forget the horrible experience I had with college calculus. I'll save that story for another time, but let me just say that it totally shredded my confidence about my ability to learn math!

Despite that experience (or maybe because of it), when I started teaching, I discovered that I have an aptitude for teaching math. I love breaking down complex math skills to make them easier for kids to understand, and I love using creative teaching methods to help all students succeed in math. Now that I'm no longer in the classroom, I enjoy presenting webinars where I can share these strategies with other educators.

Mind-blowing Brain Research About Mistakes and Mindsets 
During one of my recent math webinars, a teacher suggested that I read Jo Boaler's book, Mathematical Mindsets. I had already been planning to develop a webinar about how to foster a growth mindset in math, so I ordered a copy right away. Unfortunately, I didn't have time to read it when it arrived so the book ended up buried on my desk until I noticed it yesterday.

Oh my goodness! Have you ever read a professional development book that was so compelling you wanted to talk about it with anyone who would listen? That's how I felt when I started reading Mathematical Mindsets: Unleashing Students' Potential Through Creative Math, Inspiring Messages, and Innovative Teaching. I was hooked from the first page!

All I can say is the book is definitely living up to the premise of that very long title. I thought I had a good grasp on growth mindset research, but after reading just a few pages, I realized that I've barely scratched the surface of this topic.

For example, I knew that mistakes should be considered to be a sign of learning rather than as a sign of failure.

But I didn't know that when we make a mistake, our brain responds physically with increased electrical activity and actually grows a synapse! Neuroscientists discovered this by measuring this electrical brain activity in test subjects they observed while working. This brain response happens even when the person making the mistake doesn't consciously realize a mistake was made!

November 1, 2016

Investigating Condensation and the Water Cycle



Step-by-step Lesson and Free Printables 

Most kids are familiar with the terms precipitation, condensation, and evaporation, but very few of them really understand what those words mean. Just ask your students to name three examples of condensation in everyday life and watch their eyes glaze over. Huh??

Most kids understand that precipitation is a fancy word for different forms of water falling from the sky, like rain, snow, and sleet. Most kids also understand that evaporation is what happens when water "disappears" on a warm day, such as a puddle drying up. They know that evaporation means liquid water has become water vapor.

Condensation is a little harder to grasp. If you've taught your students that clouds form as a result of condensation, they may think that condensation only happens in the sky. Do they know that condensation happens all around us, every day? If they understand that water droplets on a cold glass are the result of condensation, where do they think the water comes from? Inside the glass?

Condensation Investigation

Here's a simple investigation that will help your students understand what condensation is, where it comes from, and where it happens in everyday life. The activity works well as an introduction to the water cycle or as a part of a lesson on states of matter. Because this is an exploratory activity, it's best not to provide too much background information before you begin.