What if everything we've been taught about teaching dyslexic students to read and write is backward? In this eye-opening second installment of my conversation with Russell, we discover how the dyslexic brain's unique wiring demands a completely different approach to literacy. Russell reveals the science behind his revolutionary method, showing us brain scans where dyslexic students have 2.5 times more activity in the front part of their brains compared to typical students. This neurological ...
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What if everything we've been taught about teaching dyslexic students to read and write is backward? In this eye-opening second installment of my conversation with Russell, we discover how the dyslexic brain's unique wiring demands a completely different approach to literacy. Russell reveals the science behind his revolutionary method, showing us brain scans where dyslexic students have 2.5 times more activity in the front part of their brains compared to typical students. This neurological ...
Good design starts with a clear goal and ends with a real-world result. We walk you through a practical, human-centered approach to data-driven instructional design that turns scattered metrics into confident, ethical decisions. From writing a sharp creative brief and instrumenting your learning ecosystem to analyzing patterns and testing targeted fixes, you’ll get a repeatable playbook built to reduce risk and improve outcomes without burning time or trust. Ready to turn evidence into impac...
Designing with Love
What if everything we've been taught about teaching dyslexic students to read and write is backward? In this eye-opening second installment of my conversation with Russell, we discover how the dyslexic brain's unique wiring demands a completely different approach to literacy. Russell reveals the science behind his revolutionary method, showing us brain scans where dyslexic students have 2.5 times more activity in the front part of their brains compared to typical students. This neurological ...
