Tag Archives: STEM toys

NaBloPoMo

Lego & all the learning benefits: Part 1

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As expected, A’s first set of Lego Duplo has opened up a world of learning opportunities for her. Obviously, we have all read numerous articles on how Lego promotes STEM education. However, what I would like to analyze is the specific skillset attained by blocks. To do this, I’m going to revisit an old friend, the competency.

Let’s start off with the formal definition. A competency is defined as an effective ability, including attributes, skills and knowledge, to successfully carry out some activity which is totally identified. While the term competency is typically applied in formal learning environments, I firmly believe that competencies are achieved at every stage of life. Since the first pediatrician appointments, we have been asked about A’s milestones such as feeding, laying down for tummy time, rolling over, etc. In my mind, these milestones are competencies achieved by the child. Taking the concept further, each competency has a number of sub-competencies as well. My mind was blown when my nurse at the hospital explained why it was so difficult for the newborn baby to learn to feed – the child must learn to a. suck; b. swallow; and c. all while breathing. The competency of “feeding” had so many sub-competencies!

Coming back to blocks. The obvious first competency to be achieved by the child is to put two blocks together. But wait! That isn’t the first one! While A was fascinated by the first sight of the Lego blocks, and even though it seems elementary, she couldn’t start off with putting two blocks together! So we started with what seems like the second competency: Taking two blocks apart.

So, why is this the easier competency? Let us look at the sub-competencies for the two competencies of putting together and taking apart Lego blocks:

C1: Taking blocks apart given a set of blocks that are joined together
C1.1: Identify where the two blocks meet
C1.2: Grip the blocks in the right way that they come apart
C1.3: Pull in the right direction until they come apart

C2: Putting blocks together
C2.1: Identify two blocks that will fit together
C2.2: Identify the right location to join them
C2.3: Grip them appropriately to push them together
C2.4: Join the two blocks together

We shall now identify the easier competency. Is difficulty a subjective factor? To some extent, definitely, but we can break it down into as many objective factors as we can as well, and allow learner subjectivity to be a factor too. Factors are also task-specific – while some factors are common ones, many factors are specific to the competencies we are analyzing. For recap, here is an overview of the cognitive, psychomotor and affective domains. Let us identify a set of factors for difficulty in this case:

  1. Number of sub-competencies
  2. Cognitive processes required for each sub-competency
  3. Psychomotor skills (fine and gross) required for each sub-competency
  4. Affective stimuli induced by each sub-competency
  5. Subjective difficulty of each sub-competency

Here’s an analysis of each sub-competency with respect to the cognitive, affective and psychomotor domains:

Sub-competency Cognitive Affective Psychomotor
C1.1 Analyze Characterization Perceptual abilities
C1.2 Evaluate Characterization Skilled movements, Perceptual abilities
C1.3 Apply Organization Fundamental movements, skilled movements, perceptual abilities
C2.1 Analyze Characterization Perceptual abilities
C2.2 Evaluate Characterization Perceptual abilities
C2.3 Apply Organization Skilled movements, Perceptual abilities
C2.4 Apply Organization Fundamental movements, skilled movements, perceptual abilities

So, C1 has 3 sub-competencies to master, while C2 has 4. While this does not automatically make C1 the easier competency, it is certainly a factor. The sub-competencies of C2 require more cognitive, affective and psychomotor processes as well. Another factor is how difficult each of the sub-competencies are. With A, she certainly found it easier to accomplish C1 before C2.

While this is not conclusive evidence to prove that C1 is easier than C2, the logic has certainly worked in the case of A. One of the reasons the logic may not work is the assumption of higher cognitive levels being more difficult than the lower ones. Another reason it may not work could be differences in psychomotor skills. Every learner is different especially in the case of little ones. It is important to identify these differences and guide learners in the way that suits them best!

Disclaimer: As with any course design process, this is iterative and I may have left out some obvious sub-competencies. Please let me know if I have!

 

NaBloPoMo, Uncategorized

First blocks!

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We got blocks for kiddo today! She got Lego Duplo, nice and big blocks so she can’t put it in her mouth. She was fascinated from the first moment she laid eyes on the box! First she was excited by the rattling in the box. Then she opened her eyes wide at the bright colors! Her dad showed her how to join two blocks together, and she was amazed! She was thrilled to make a small plane and watch him fly it.

All in all, a great buy! She’s only played with it for ten minutes so far and we’re already very excited. Bring on the Lego, bring on the creative learning!

NaBloPoMo

STEM and kiddos

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Through my PhD, I dealt with higher education, with late teenagers and undergraduate education in STEM-related courses. So when I was pregnant and discovered that Amazon and Flipkart had a separate category of toys called “STEM toys”, I was astonished! Why would my little baby want to play with toys that taught her engineering at a year old, I wondered.

Since then, I’ve been experimenting and playing with a lot of toys, courtesy A. She goes through phases of toys. As a 6 month old, when she first started playing with toys, it was all about the color and sound and not much else. Rattles were a favorite, as were anything grab-able and hold-able. As she approached a year, she moved on to stacking rings, her eyes focused as she maneuvered the rings over the rod and formed a stack. After her birthday, she started working on puzzles and shape sorters. I was amazed at her sponge-like mind, learning to use new toys everyday!

So this brings me back to my original question – what are STEM toys? STEM toys are toys that promote learning in Science, Technology, Engineering, and Mathematics. They claim to help children work towards careers in these areas (a claim which I question for the time being). They promote cognitive and psychomotor development in children, which I definitely do see.

So what are some of the popular STEM toys? A browse through Amazon and others brings up robots, building blocks, physics and electromagnetic kits and the like. There are also numerous articles detailing that “STEM toys so far have been geared to boys” and “it’s time to make them for girls too”, which is certainly baffling to me. I recently attended a mind-blowing talk by Leah Buechley, a keynote speech at FABLearn 2016, where she speaks of this issue. She is the mind behind Lilypad Arduino, and a champion of feminine making traditions. During her keynote speech, she broadened the audience’s view on STEM toys and activities, leading me to believe that STEM is everywhere, and that it is the world’s view of STEM toys which is pigeonholed into a subset of toys. Here are some of my favorite toys which I believe promote learning

  • Shape sorters: These seemingly elementary toys teach shapes, and then matching a shape to its appropriate slot. Its not just about matching the shape, but also turning the shape to fit into the slot appropriately. Some shape sorters double up to teach colors as well. Of course,  shape sorters can double up as stackers, blocks, even grab-ables for the little ones.
  • Puzzles: And of course, I mean much simpler puzzles to start with, such as this one. Apart from the obvious skill of matching the right piece to the right location (like the shape sorter), playing with these also provides numerous teachable moments about the objects in the puzzle like animals or food. Pulling the pieces out of the puzzle individually also helps develop fine motor skills.
  • Stackers: In addition to the fine motor skills of grabbing, holding and placing, these also teach sizing and order. For example, largest on the bottom and smallest on the top? Stackers include the old favorite – stacking rings, but also stacking cups, stacking blocks that even have books embedded in them, and more. You could stack these one on top of the other and it’d be a fun game to make a tower than doesn’t collapse, teaching balance in the process.
  • Boxes and lids: not a toy! But this is my kiddos personal favorite. She started off trying to close her snack box. She then moved on trying to close any box with the lid I gave her. One day, she found a sippy cup top and a random cup, and just trying to match the two just because they were the same size! Which they didn’t belong to the same set, I was amazed at how her young mind worked! These days, she is easily kept occupied with a bunch of random boxes and lids, working her way through matching them, and then closing them until they seal!

These are just some of our current favorites. I’m sure there are many more out there! The thing is, STEM is way more than what we know, it’s everywhere! What are some of your favorite toys (for your kids or yourself!)