brain fact or fiction

Brain Fact or Fiction

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Brain Fact or FictionSeptember 2017

Agenda

6 Areas of Common NeuroConfusion

(Persistence of Neuromyths)

Why misconceptions occur.

What is really going on.

Why it is important to dispel the myths.

How much of our brains do we use?1

One Possible Explanation for the 10% Myth

One Reason It Persists

Another Possible Reason It Persists

PET Scan

Why Dispelling this Neuromyth Is Important

Believing that we only use 10% of our brains means having a very fundamental lack of understanding of what our brains do and how they work.

• Impact of injuries.

• What would you do to help your students improve the % of their brains that they use and how would you know?

• Misconceptions about brain size and relationship to intelligence and cognitive capacity.

People learn better if they are taught using a strategy that appeals to their specific learning style (auditory, visual, kinesthetic).

2

One Possible Reason for This Neuromyth

One Possible Reason for This Neuromyth

One of many,

many

examples!

• Learning is the act of making and strengthening connections between thousand of neurons forming neural networks or maps.

• Memory is the ability to reconstruct or reactivate the previously-made connections.

• Neurons that fire together, wire together!

• Our brains are shaped by our experience and our brains must construct our understanding of the world.

Learning & Memory

What neurons

actually look like in

your brain.

Cerebral cortex

neurons in a

newborn and a

two-year-old.

This is a picture

of learning.

Sight

R

E

C

E

P

T

O

R

S

Sensory

Memory

Information not transferred to next

stage = forgotten!

Hearing

Touch

Taste

Smell

COGNITIVE PROCESSING MODEL

Working

Memory

Long-Term

Memory

Perception Organization

RetrievalAttention

Sight

R

E

C

E

P

T

O

R

S

Sensory

Memory

Hearing

Touch

Taste

Smell Working

Memory

Long-Term

Memory

Perception Organization

RetrievalAttention

Why Dispelling This Neuromyth Is Important

• Teachers don’t transmit knowledge and understanding to students.

• Each student’s brain must construct knowledge and understanding from the experiences they have.

• The experiences that teachers create for their students physically change their brains (the teacher’s and the students’ brains).

• The more modalities used to rehearse, the more paths you have for retrieval.

People are naturally either right-brained and more analytical or left-brained and more creative. Students learn differently depending on whether they are right-brained or left-brained.

3

One Likely Explanation for this Myth

Left Hemisphere Right Hemisphere

Movement in right side of body Movement in left side of body

Production of speech Creativity – new ideas

Comprehension of language Recognition of faces

Reading and writing Recognition of patterns

Analytical thinking Musical ability

Logical reasoning Spatial ability

Math Emotional detection and expression

Tan’s Brain – Broca’s Area

PET Scan

One Likely Reason It Persists

Why Dispelling This Myth is Important

• The two sides of our brain work together.

• Parents’ beliefs about their children limits them.

• Teachers’ beliefs about students affects their performance.

• Students’ beliefs about themselves can limit them.

• Like learning styles, it implies a need to adjust teaching when both analytical skills and creativity can be and need to be developed and nurtured.

Our brains don’t change very much after age …

4

Possible Explanation for The Myths

• Research that shows that IQ, self-control, vocabulary, etc. at 3 are predictive of later success.

• 7 – the age of reason

• 13 – adult bodies

• 21 – arbitrary number = voting age

• 25 – age at which you can rent a car

Neurogenesis (Growth of Neurons)

• During the 9 months of fetal development, neurons grow at the rate of 250,000 per minute.

• At birth the brain has approximately 80 billion neurons and weighs about 1 pound. By one year it has doubled and by age 5 or 6 it is 90% of its adult size and weight

• What causes this tremendous growth in such a short time? (Hint: It’s not more neurons.)

Growth of Connections (Synaptogenesis)

Cerebral cortex neurons in a newborn and a two-year-old.

Synaptogenesis and Pruning

• Between the second month in utero and the age of two, each neuron in the cortex forms an average of 1.8 synapses per second. At this point the brain begins to prune away large numbers of connections.

• Which connections remain, and which are pruned, depends on whether or not they are used.

• Experience literally changes the brain!

Why Dispelling This Myth is Important

• Implications of developmental stage on parenting and education decisions.

• Understanding that our experiences change our brains – literally. Our brains become what our brains do.

• Sensitive periods, not critical periods.

• Our brains can change throughout life, to a much greater degree than we have thought and than most of us realize.

• “Don’t give up on them.”

Which of these statements about intelligence is true?

5

One Possible Explanation for Confusion

Another Explanation

• G (one thing)

• Gf (Fluid Intelligence) and Gc (Crystallized Intelligence) (two things)

• Ability to reason and problem-solve in novel situations

• Multiple Intelligences (Several things)

• The imagination network and the executive network

• The ability to assemble and integrate multiple mental processes to solve new challenges and to learn from them

Student 8

• Female, 41

• Completed 34 sessions, 151 levels

• Challenged by directionality, timing and rhythm, visual representations

• GAMA IQ Gain

• 6 points

• 45th to 61st percentile

• Stayed in Average Range

GAMA Subtest Pre-Test Range Post-Test Range

Matching Average Superior

Analogies Average Average

Sequences Average Average

Construction Average Average

Student 7

• Female, 19

• Completed 29 sessions, 112 levels

• Challenged by directionality, timing and rhythm, visual working memory

• GAMA IQ Gain

• 21 points

• 9th to 53rd percentile

• Moved from bottom of Low Average to Average

GAMA Subtest Pre-Test Range Post-Test Range

Matching Low Average High Average

Analogies Low Average Average

Sequences Low Average High Average

Construction Average Low Average

Student 2

• Male, 27

• Completed 23 sessions, 166 levels

• No great challenge until reached upper levels

• GAMA IQ

• 12 points

• 68th to 90th percentile

• Moved from Average to High Average range

GAMA Subtest Pre-Test Range Post-Test Range

Matching Average Average

Analogies High Average Superior

Sequences Average Superior

Construction High Average High Average

Why Dispelling This Myth is Important

• The power of a Growth Mindset.

• Not only can intelligence and talents be developed, our belief that they can be has an impact.

• Genetics play a role but our experience is critically important.

• How different would schools be if we put this belief into practice?

Our brains make a recording of everything we experience. When we forget something, it is merely our inability to retrieve the information.

6

One Possible Explanation for this Misconception

Just the facts,

ma’am.

Sight

R

E

C

E

P

T

O

R

S

Sensory

Memory

Hearing

Touch

Taste

Smell Working

Memory

Long-Term

Memory

Perception Organization

RetrievalAttention

• Learning is the act of making and strengthening connections between thousand of neurons forming neural networks or maps.

• Memory is the ability to reconstruct or reactivate the previously-made connections.

• Neurons that fire together, wire together!

• Our brains are shaped by our experience and our brains must construct our understanding of the world.

Learning & Memory

Memory Experiment

• bed

• rest

• awake

• tired

• dream

• wake

• snooze

• blanket

• doze

• slumber

• snore

• nap

• peace

• yawn

• drowsy

Memories Aren’t Always What We Think

• Memories are made and then constantly remade every time we actively recall them.

• There is no such thing as a perfectly accurate memory.

• We can believe we have memories about events we have only heard about.

• We can strengthen memories by building on to them.

• Studying and connecting related topics helps build stronger networks that are easier to reactivate.

Elaborative Rehearsal Strategies

• Reciprocal or peer teaching

• Metaphor and analogy

• Models

• Story-telling

• Problem-based learning

• Visuals and graphics

• Simulations

• Hands-on activities

• Rhythm, rhyme and rap

• Mind maps (Semantic maps)

Why Dispelling This Myth is Important

• We construct knowledge and memories. We constantly remake them every time we actively recall them.

• There are multiple factors that affect whether information is attended to (motivation, interest, novelty).

• Information that is not rehearsed in working memory and actively elaborated is unlikely to be remembered.

• Ending the “well, we went over that in class” mentality.

Questions?

Let’s stay

connected

Betsy Hill

bhill@mybrainware.com

773-250-6467

www.linkedin.com/in/betsyhill

www.MyBrainWare.com

www.facebook.com/BrainWareLearning/