Tuesday 10 November 2015

Visual Storytelling with Book Creator - Conflict Stories


Today in Grade 2 we made Conflict Stories using the new comic tools in Book Creator on our iPads. The students were able to take examples from small conflicts that they had experienced in the classroom.

Outline

The outline was - Title - Beginning - Problem - Conflict - Solution. The class has been learning about conflict resolution as a unit of work. Using Book Creator, every student was able to take a conflict and easily turn it into an illustrated story within a lesson.

Design

As a part of the design, we learned about the Law of Thirds for the cover of the book and to use facial expressions to help tell the story. The students also learned about choosing fonts that are easy to read and colours that contrast well with the backgrounds. We also learned the difference between speech bubbles and thought bubbles.

The students really enjoyed working in small groups to act out each conflict theme. Most of the themes were about sharing. It is really easy for students to quickly build a story that draws together photos with text to support the storytelling.

Next Steps

Our next steps will be to finish the stories by creating voice recordings and then exporting the finished work as a video to upload to our blogs.
Title - Cover of Book
The Beginning
The Problem
The Conflict
The Solution

Monday 9 November 2015

Makerspace - Electric Textiles

I am a Maker. I love all kinds of arts and crafts and so I have developed a lot of skills through my making. I am a curious person so in order to make sense of how a Makerspace may be best utilized in a school, I needed to explore some projects myself.

I love textiles. I can weave, sew, knit, crochet, knot and print and paint on textiles. My next challenge is to learn how to embed technology into my textiles. I am also curious to learn more about this to encourage more girls to work on Makerspace projects, although these kinds of projects could be also of interest to boys. Instead of a flower, you could make a robot.

Just last weekend I tried to create a circuit in fabric. One of the greatest challenges here in Jakarta is finding the resources needed for these types of projects. I decided to start with a simple circuit that requires using a coin battery, battery holder, a switch and some LEDs.


I was able to buy some conductive thread and some tiny LEDs. The first thing I did was test the LEDs with the thread and battery. I was not able to buy a battery holder for the coin battery. I know that using a AA battery is not a good idea as the power could burn out the little LEDs. I decided to break open an old toy to get the battery holder and it worked just fine.

Equipment Needed:
felt - various colours
sewing thread
needle
conductive thread
needle nose pliers
LEDs
3V coin battery
Battery holder
metal press stud clasp

Sew your felt picture. You can do this by hand or on a sewing machine. You could even just glue the felt together with fabric glue. Next check all your electric parts.









Check the positive side and negative side of the battery. Put the battery into the holder so that the wire brackets touch the matching + or - Note that the positive side also runs around the edges.




The LED has a long and short side. The long side indicates the positive.



Bend the wire on the LED to make a little loop to sew through. Simple pointed pliers will do.
Here is the bent LED ready for sewing.







Test your LED, thread and battery to make sure it works. Make sure you connect the thread securely to your battery case. I placed it under the small screws and tightened them.




















Next you can start sewing the circuit.








It's a good idea for students to draw a diagram for their circuit to work out where the positive and negative connections will be sewn. This diagram is showing that placement for just one light. The other lights can connect to the circuit. They don't have to go all the way back to the battery.
Use the metal snaps as a switch. Make sure that you sew the positive connections but leave one break for the switch. This will allow you to switch your lights on and off.













Here is the finished project.