Beginner
Beginner
- Learn what’s really behind the CAGED system.
- Develop a deeper understanding of chord inversions.
- Create interesting progressions all over the neck.
Scaffolding is a teaching technique used to build connections for learners before the true concept is taught. An educator will select content that is not too difficult or unfamiliar for students and will use that familiar material to make connections to the new concept.
An example of scaffolding is a teacher discussing the themes of To Kill A Mockingbird before assigning a class to read the book itself. The CAGED system shares this same structure; instead of directly learning how chords are constructed, students learn chord shapes they’re already familiar with, but move the chord shapes to new locations on the neck.
There are advantages and disadvantages to learning with a scaffolding system.
Advantages:
- Scaffolding minimizes frustration
- Scaffolding is catered to students who are quick to give up
- Building connections based on known concepts (i.e.: chord shapes) speeds up learning
Disadvantages:
- Does not promote independent learning
- Over-scaffolding creates dependence
- CAGED system cannot be applied to music in general and is specific only to the guitar.
The ultimate goal of CAGED is not to teach shapes but to teach new chords.
I would like to offer another piece of scaffolding. Chord inversions will also teach students new ways to approach chords they already know. These two scaffoldings are not in competition, but in fact aid each other.
You will create a chord progression applying both the CAGED system and chord inversions. We will use the I–VIm–IV–V progression in the key of A major: A–F#m–D–E.
What's a Chord Inversion?
An inversion occurs when a chord’s notes are rearranged, specifically which note in the bass of the chord.
An A major chord in root position is A (root) C# (3rd) E (5th)
1st inversion is C# (3rd) E (5th) A (root)
2nd inversion is E (5th) A (root) C# (3rd)
In Ex. 1 you can see these inversions played on the top three strings.
Let’s simultaneously lay out the A major chords using the CAGED system in Ex. 2. (If you need a CAGED refresher, check out "The Guitarist's Guide to the CAGED System."
You will select one of these voicings for your chord progression. As you examine all eight voicings, pay attention to which voicing you’re drawn to. This will help build your creative voice. Personally, I’ve always loved the sound of a 1st inversion chord, so I will select that for the first chord in my progression.
The second chord in our progression is an F#m. Let’s examine the inversions for this chord in Ex. 3.
In Ex. 4 you can see the F#m CAGED system chords.
I want to include some descending pitches. I will select the F#m from the CAGED system, using the "E" shape. When moving between these two voicings the energy drops in a lovely way because there are so many descending pitches. We also add three new low notes, giving this voicing a deeper sonic space. This is a sound I enjoy. You may choose whichever voicings you think sound right for your exercise.
For my example, I’m going to select a D chord in root position. Curiously, I decided against using the "A" shape of the D chord. These two chords are incredibly similar but I wanted to stay away from the lower notes. This will add contrast in my progression for a dynamic effect.
Because E major is the final chord in our progression, I’d like to hear it end on a full sound with a nice bottom end. This will contrast the high voicing of the previous chord. For these reasons I simply choose the open E chord. The final result of my progression is in Ex. 5.
Scaffolding is not good or bad, just as the CAGED system is not good or bad. The power in this lesson comes from the student making strong creative choices, and analyzing why they’re making those choices.
Create your own chord progression and think critically as you select which chords you want. The system itself doesn’t give a player creativity. It’s the implementation of the system that builds creativity.
By splitting your signal into low- and high-frequency bands, and feeding them to separate effects loops, the XO lends a new, expansive vocabulary to the effects you already have.
Smart, intuitive controls. Exponentially widens the tone potential of just a few effects. High quality construction
Players with limited use for such effects will consider it expensive.
$279
Great Eastern FX
greateasternfx.com
Though some musicians consider it a chore, I relish the creative possibilities associated with mixing a song or record. Working with the Great Eastern FX XO Variable Crossover feels a lot like the process of experimental mixing using EQ and outboard effects. The concept is simple: The XO splits the low and high frequencies from your input into two separate bands, which are routed via corresponding send and return jacks to different effects or series of them.
Depending on how you set the crossover frequency, the return balance, dry blend, and phase, you can fluidly shape, blend, and move between sounds that are subtly different or radically deconstructed. On the surface, it might look and sound like a cumbersome process. In reality, it’s intuitive, fun, and full of surprises
Fear Not the Frequency Shift
The XO’s control set will probably look alien to most guitarists. The largest knob controls the crossover frequency, which determines the point at which the full frequency band is divided and sent to the low and high send and return. The range button just to its right selects two frequency ranges: 50 to 600 Hz, or 300 Hz to 3.4 kHz. The first is recommended for use with bass, the second for guitar, but you can experiment with either setting for any instrument. The return balance knob sets the relative levels of the two effects returns and the dry blend knob performs its namesake task. The phase button can be used to either correct phase issues when the two bands are out of phase or applied creatively to fashion out-of-phase variations on a sound. A very useful send button, meanwhile, switches the high and low sends, enabling instantaneous selection of mirror-image frequency and effects mixes.
Mutating Tone Tangles
My first experiments with the XO were simple: sending the low band to a delay with long repeats and the high band to another delay with fast repeats, lurking just at the brink of oscillation. The ways I could blend these divided and reconstituted tone composites were often unexpected, surprising, and totally inspiring. I could set up signals that found trebly repeats hovering at the edge of feedback, while low and low-mid frequencies (which can overwhelm a self-oscillating signal) provided a fat foundation for the resonant, ringing top end—a totally cool sound that responded in really interesting ways to picking dynamics and different rhythmic patterns. In a modification of that formula, I routed an intensely throbbing Vox Repeat Percussion clone, slow-sweeping phaser, and long-repeat delay to the low band and assigned a clean, heavily compressed, slapback to the high frequencies. In this configuration, simple folk-rock chords and melodic lead lines took on complex, alien alter egos, sometimes sounding like two players—one handling a bubbling bass synth, and a guitarist carrying the tune via the clear detailed high end. When the pulsing low end got tiresome, it was easy to dial in more dry signal via the dry-blend knob or dial in a mix favoring the tighter, chiming high band.
“Simple folk-rock chords and melodic lead lines took on complex, alien alter egos, sometimes sounding like two players.”
The spins you can put on these recipes are endless. Situating an octave-down pedal amid the tremolo and phaser made the two bands even more distinctive and heightened the illusion of a guitarist and synth player working together. You can mix fuzzy, thumping low end with ringing and heavily chorused top-end output. Or you can blend two similar but distinct effects to create oddly chorused and powerful widescreen tonalities.
The cool part of all this potential is that it can be realized with a single amp and just a few pedals. Some of my most radical sounds came via just four or five pedals including the XO, which adds up to a very modest and portable array, all things considered. Players that work with pedalboards that count stomps in the double digits could disappear in labyrinths of sound that are as immersive as those afforded by synthesis. And while XO is, after some practice, easy to control, the new, chaotic molecular reactions provoked by unorthodox stimulation of your pedals all but guarantees unique results. You will definitely find new sounds and new ways to play and compose here.
The Verdict
The XO Variable Crossover is more likely to see service as a studio tool than become a staple of live setups, though plenty of courageous musicians will find it practical in that environment. Although the mechanics and principles behind its workings can seem complex at first, it can be used effectively and dramatically with just a few stompboxes. The sounds and voices it can extract from, say, a phaser and a delay are exponentially greater in number than what you’d get by simply using two such effects in series, even if some of them are subtle. And the ability to manipulate and warp these sounds on the fly with the XO’s elegant, simple control interface could bring out your inner Lee “Scratch” Perry or DJ Shadow—creating new moods, scenes, and tapestries that can turn a simple song or riff into a moving, mutable, and flowing tone story.
Cardinal Black's guitar slinger explains the bond he's formed with the overlooked goldtop.
The T-style Big Mamie has a teak body, roasted-flame-maple neck, and ebony fretboard.
Built with wood from a World War II battleship, this reader’s guitar holds a lot of history.
I love it when guitars and history come together.
My newest guitar, “Big Mamie,” was built with original teak from the deck of the USS Massachusetts (BB-59). This wood saw action in World War II, during multiple campaigns in the 1940s.
I was checking Facebook one day and I saw a post from Battleship Cove (located in Fall River, Massachusetts) where they were auctioning off this Telecaster-style body crafted by Rhode Island luthier Vincent Goulart. The proceeds of the auction would go to helping restore the battleship.
I knew I had to have it. Not only was this a piece of United States and Massachusetts history, but it held a special place in my memories. When I was a kid, my grandparents would take us to Battleship Cove where we’d explore the ships, the submarine, and the historical displays. Later, when I had my own kids, we’d visit and do overnight sleepovers with Scouts. We slept on “Big Mamie” and walked the decks from where this wood was taken.
Daniel had Big Mamie’s neckplate custom laser-engraved with a silhouette of the USS Massachusetts (BB-59), and the dates that can be seen on the battleship’s plaque.
After winning the auction, I was connected to Vincent and he told me the story of how he came to build this body for the restoration fundraiser. He’s a talented luthier, but each of his guitars has to have a unique history/story. This was right up his alley!
We spoke a few times, discussing what I liked to play, and how I’d like the finished guitar to look and sound. In the end, I decided on some standard Fender chrome components for tuners, neck plate, ferrules, etc. For the pickups, I went with Lindy Fralin Blues Specials. The controls are also from Fralin; I decided on the flipped-control orientation with the push-pull mods for the volume engage/disengage and tone caps (.02 MFD and 0.047 MFD, film and oil, respectively).
The vintage/modern roasted-flame-maple neck, with an ebony fretboard, was custom ordered from Warmoth. The neck had an adventure all of its own after initially being lost in shipment. It finally showed up about a week or two after being written off as lost (and after a new order was placed).
“Now I have a piece of history here in my room that I can pass down to my family.”
For the neck plate, I had it custom laser-engraved with a silhouette of the battleship and dates from an onboard plaque. The strap, from Well-Hung Guitar Straps in Canada, fits the patriotic theme. I’m also using oversized strap buttons from Well-Hung.
Over a couple visits to Vincent’s place, he helped me put together all the components and bring “Big Mamie” to life. Now I have a piece of history here in my room that I can pass down to my family. It also gives me a reason to work on my admittedly novice guitar skills.
These pedals are designed with fast response times, versatile routing options, and durable construction.
ISP Technologies has introduced the latest generation of their pioneering noise reduction products: the Decimator X Pedal Series for guitarists and bassists.
Building upon the legacy of ISP’s earlier Decimator pedals, the new Decimator X models utilize cutting-edge patented circuitry to get rid of unwanted noise and 60-cycle hum, effectively eliminating even the most stubborn background noise.
The pedals offer lightning-fast response times and ultra-smooth decay with enhanced tracking technology. If you’re playing staccato, with or without pauses, or if you desire a nice long decay, this technology allows for a natural sound and feel. You can preserve the integrity of your tone, even during fast-paced passages and intricate playing.
Whether you’re running a complex pedalboard setup or keeping it simple, the Decimator X pedals offer versatile routing options to suit your needs. With flexible input and output configurations, you can easily integrate the pedals into any rig, ensuring maximum compatibility and convenience.
ISP offers two variations of the pedal depending on your routing needs. The standard Decimator Xsimply has an IN and OUT jack. You place this pedal in your rig after your gain or noise-prone pedals. The THRESHOLD control is set based on the noise coming into the IN jack.
The Decimator X G-String provides 4 jacks: GUITAR IN, GUITAR OUT, DECIMATOR IN, and DECIMATOROUT. This provides a direct connection from the GUITAR and the direct GUITAR signal is used to control the block of DECIMATOR noise reduction. This allows you to insert your noisy pedals between GUITAROUT and DECIMATOR IN, but the DECIMATOR noise reduction is controlled by the direct GUITAR signal at the GUITAR IN. This configuration offers an important advantage: you can switch from extreme high gain to crunch or clean and never need to re-adjust the threshold control on the pedal, because the direct guitar signal is used to control the noise reduction block.
Built like a tank, the X pedals are housed in a durable enclosure, designed to withstand the demands of the gigging musician and provide reliable performance night after night. Both pedals have a battery compartment for a 9-volt battery and provide a 5.5mm barrel connector for use with a standard external 9-volt DC power adaptor. The new Decimator X carries a $146.72 street price; the Decimator X G-string carries a $236.42 street price.
For further information visit isptechnologies.com.