The Percussion Family
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Transcript The Percussion Family
The Percussion Family
For the Concert Setting
By: Nicole Morrissey
Pitched vs.. Unpitched
• Pitched Skin, Metal, and Wood
When hit, these instruments produce a
pitched sound
• Unpitched Skin, Metal, and Wood
When hit, these instruments produce an
unpitched sound.
Pitched Skin
• Timpani
Construction:
Head - There is one head for each timpano made out of calf skin or plastic. The
head produces the sound of the drum.
Pull Rod - These metal rods connect to the pedal and the “t” screws to adjust tuning
Bowl - Serves as a frame to support the other parts. It functions as a resonator for
the sound produced from the head.
Tension Screws - used for tuning. Head tension increases when turned clockwise.
Counter-Hoop - This pulls the head over the edge of the bowl and hold the “t”
screws.
Struts - Suspends the bowl so it can resonate more freely.
Pedal - Makes changes in the pitch of the drum
Collar - The distance between the edge of the bowl and the counter-hoop.
Compression Spring Control Knob - This compresses a spring that counteracts the
tension of the head. It allows to pedal to remain in any desired position.
Timpani cont.
Timpani Range: read in the bass clef
32” D2 - A2
29” F2 - C3
26” A2 - E3
23” D3 - A3
20” F3 - C4
Sound Production
When playing the timpani, one should lean slightly over the drum.
The arms should hang relaxed, and the angle between the
mallets should form a triangle. The striking spot should happen
2 - 5 inches away from the edge of the head.
Pitched Metal
• Chimes
Construction:
Tubes - These metal tubes are suspended to produce sound when
struck.
Striking Cap - This refers to the top of the tube where it is struck
from the side.
Damper Pedal - This pedal sustains the ringing of the tubes when
pushed down.
Felt Damper Bar - this absorbs the vibrations of the tubes when
touching them.
Pitched Metal
• Chimes
Range:
Chimes sound where written from C4 - F5
And are read in the treble clef.
Sound Production:
Chimes are played with
wooden mallets, or hammers.
Pitched Metal
• Vibraphone
Construction:
Keyboard Bars - Made from aluminum and are suspended by a rod
for maximum vibration.
Resonators - These amplify the tone of the bars. A disk is located at
the top of each that turns by a motor, opening and closing the
resonator creating a vibrato effect.
Motor - This turns the disks and can be adjusted to various speeds.
Damper Pedal - When this is pressed down, the felt bar removes
from the bars to allow them to vibrate freely.
Pitched Metal
• Vibraphone
Range/Clef:
The vibraphone is notated in the treble clef and ranges
from F3 - F6. It sounds as written
Sound Production:
Varying degrees of hard wood or plastic mallets are
used for the vibraphone. The bars should be struck in
the center to allow for maximum vibration.
Vibraphone Sound Production
Pitched Wood
• Marimba
Construction:
Keyboard Bars - These bars vary in size and are made
from Honduras Rosewood.
Suspension String - This string threads through the
bars, suspending them to allow for vibration.
Resonators - These aluminum pipes are found under
the bars to amplify the sound.
Pitched Wood
• Marimba
Range/Clef:
The marimba sounds where written and can range from
C3 - C7, with some extending from A2 - C7. It can be
notated in bass, treble, or grand staff.
Sound Production:
The marimba can be played with soft to medium hard,
usually rubber, mallets. It’s mallets are usually
wrapped with yarn to produce a soft tone.
Pitched Wood
• Xylophone
Construction:
The xylophone has the same parts as the marimba,
except the length of the resonators are different
compared to the marimba.
Range/Clef:
The xylophone sounds an octave higher written and its
written range is from F3 - F6. It is notated in the
treble clef.
Pitched Wood
• Xylophone
Sound Production:
The xylophone’s tone is a lot harsher compared to the
marimba’s. Its bars are made from the same wood
but from different parts of the tree, which changes the
quality of sound. It is played with hard mallets made
from wood or plastic.
Mallet Technique
Unpitched Skin
• Snare Drum
Construction:
Head - The top head, which you hit, is called the batter head and is thicker than the
bottom head also called the snare head. The snare head is thinner so that is can
vibrate and in turn cause the snares to also vibrate.
Shell - The drum’s skeleton that supports all other parts. These can be made from
chrome plated steel, wood, copper, fiberglass, or plastic.
“T” Rods and Lugs - The eight “T” rods can be turned clockwise to increase the
tension of the drum heads and vice versa. The rods screw into the lugs that are
located on the side of the shell.
Air Vent - A hole in the side of the shell allows the compressed air to escape after
the batter head is hit. The compressed air could split the head if there was no
way for it to escape.
Snares - These stretch the diameter of the snare head and are made from coiled
steel. They give the drum its sound by vibrating against the snare head.
Unpitched Skin
• Snare Drum
Construction
Snare Extension String - This connects the ends of the snares with the
throw-off switch.
Throw-Off Switch - This adjusts the amount of tension of the snares
against the head.
Flesh Hoop - This wood, aluminum, or steel hoop goes over the shell and
under the counter-hoop. The drum head tucks around it.
Counter-Hoop - This metal hoop pulls the flesh hoop down over the shell of
the drum.
Ton Control - This felt pad inside the drum absorbs the vibrations made
from striking the head and can be adjusted by a knob on the shell.
Unpitched Skin
• Snare Drum
Sticks:
Drum sticks come in various sizes. For beginners, the sticks should
not be to large for the student’s hands. Teachers should look for
even weight and straightness in drum sticks.
Sound Production:
The snare drum is played on a stand that should come to about hip
level. The arms should hang relaxed. The sticks should
immediately rebound off the head after being struck in order for
the vibrations to last.
Unpitched Skin
• Bass Drum
Construction:
The bass drum has the same parts as a snare drum except both of
its heads are the same thickness. Also, the bass drum does not
have snares, or any of the parts relating to the snares.
Mallets:
The bass drum mallet has a ball of wool on each end with one ball
being slightly larger than the other. It is held between the thumb
and index finger with the other fingers curled around the stick.
Unpitched Skin
• Bass Drum
Sound Production:
The bass drum should be struck at a glance half-way between the
center and the upper edge of the drum head.
Damping:
To stop the vibrations, the player must dampen the other drum
head by placing his/her fingertips on the head. For a stronger
damp, the entire palm of the hand should rest against the head
of the drum.
Unpitched Metal
• Crash Cymbal
Construction:
Edge - Three inches around the circumference of the cymbal.
Bow - The part, including the edge that extends up toward the cup.
Cup - The center of the cymbal that is raised.
Cymbals are maid in several different weights. Lighter weight
cymbals produce a sharper, crisper sound, and heavier cymbals
produce a slower, heavier sound.
Sound Production:
The crash cymbals should be gripped by the straps. The left
cymbal should be held stationary while the right cymbal swipes
the left one at a glance moving from the bottom to the top
Unpitched Metal
• Triangle
Construction:
Triangles are made from aluminum or steel and are
usually played with a steel beater. They range in size
from 6 - 10”.
Sound Production:
The triangle should be suspended freely in the air. It can
be struck from the bottom or the side. A roll is played
by alternately striking the sides at a corner.
Unpitched Wood
• Temple Blocks
Construction:
These wooden or hard plastic blocks come in sets of
five. They are hallow in the middle and are played
using mallets.
Sound Production:
They can be tuned to a pentatonic scale. Even though
they are considered and unpitched instrument, they
can discern certain pitches. The smaller blocks
produce higher pitches than the larger blocks.
Concert Grand Piano
• Piano
Construction: The concert grand, by definition, is 9 feet long.
Case - This is the outer shell of the piano that is made first from maple,
spruce, or pine. It is made from thin sheets of wood that have to be
glued together and them put into a press to shape it. The piano top, lid,
legs, and braces are also made from wood.
Sound Board - This is located under the strings as it amplifies the sound
produced by the strings.
Bridge - This strip of wood is fits on top of the sound board to fasten the
strings. Once this step is finished, the sound board is placed in the
case on top of the braces.
Plate - This is made of cast iron and supports the 240 metal strings. It
weighs around 325 lbs. because it has to support the tension of the
strings. This part is suspended on top of the sound board.
Concert Grand Piano
Construction:
Strings - The thinner strings vibrate at faster
speeds producing the higher notes.
Conversely, the thicker strings produce the
lower notes.
Pedal - The sustain pedal lifts the dampers on
the strings and allows them to vibrate freely.
Concert Grand Piano: Action
Piano Action
1.
2.
The key (1) is pressed down.
The key lifts the underlever (2) which lifts the damper (3) off
of the string (4).
3.
While all this happens, the capstan screw (5) pushes up the
support (6) that flips the hammer (7) to strike the string.
There are 88 keys on the piano and this process has to happen for
each key. The way you strike the key determines the quality of
sound. It is notated on the grand staff and ranges from A0 C8.
Sources
• http://www.philharmonia.co.uk/thesoundexchange/the
_orchestra/
• Stomp DVDs (for info click here)
• Percussion Manual for Music Educators
by: Joel Leach
• The Piano Makers by: David Anderson
Works Cited
• Leach, Joel. Percussion Manual for Music
Educators. New York: Henry Alder INC, 1964.
• Anderson, David. The Piano Makers. New
York: Pantheon Books, 1984.
• http://www.philharmonia.co.uk/thesoundexch
ange
• http://www.music.vt.edu/musicdictionary/appe
ndix/instruments/instrumentmain.html
• http://www.orchestralibrary.com/reftables/rang
.html