All aspects of the piano method contribute to directing the correct weight via the fingers to the note by producing the necessary amount of energy for controlled note depression. This will depend on mastering the movements of all the limbs and will vary according to the speed and volume required. Once the movements are learned, they can be reduced to a minimum, which greatly improves the potential for speed when required by the music (but not for its own sake). Piano technique can be divided into various components which need to be studied individually. The components all have to work together because they are inter-dependant.
Anatomy involved in playing piano + pedals
Brain, Eyes, Ears, Spine, Pelvis, Shoulders, arms, wrist, hand, fingers, thumbs, legs, feet.
Prepared stroke uses upper and lower arm, wrist, hand, fingers and thumb.
1 Brain
The neurology of the brain is where the action comes from. Just a little understanding of how it works yields huge advantages. Some knowledge of how the brain works, reduces the tendency to be frustrated or anxious when confronted with difficult hurdles. Having identified a problem and it's solution, we need to design practice methods and repeat fragments every day until that problem disappears. Practice methods will be discussed later but unfortunately these same solutions cause problems as the brain doesn't like repetition. In fact it gets bored very quickly, craving a new experience. It's like a sponge which soaks up the water initially fast until a saturation point is reached - then the brain loses interest, stops concentrating and it's time to have a rest. At this point we need to deceive the brain into thinking that it is not a repetition. Do this by thinking about the repetition in a different way by focusing on a different aspect of it. This will keep the concentration up with good brain chemicals to keep us going (endorphins).
Boredom and anxiety produces a different brain chemistry (serotonin) which reduces the efficiency of our neurological activity - the aim of which is to generate good chemical imprints in the brain - memory. Above all, whilst doing repetitions, we must carry on listening critically to every note in order to achieve a more musical result and counteract the brain switching. So many technical issues require the establishments of brain circuitry which is not necessarily used in every day life. The neural activity particularly from one side to the other, aural and visual cortexts joining eventually to the motor-coordinaton region, all work together, managed by the intellectual part of the brain which we have to train to store all the necessary information so it can be the team leader for the rest of the brain. The best pianists have all the brain areas working together beautifully to produce an amazing skill to which we aspire.
2 Eyes
Of-course we need our eyes to read the music and see where to put our fingers but plenty of wonderful blind pianists show that this is not essential to them. When a person looses sight or was born without it, the brain does a clever trick: it recruits the visual parts which are no longer active and uses them for other current tasks like listening to the sounds and feeling the notes not to mention remembering the music. In fact one reason why sighted professionals also play without music is that it does release part of the brain for other senses to use. In addition it makes it easier to manipulate the many jumps which piano music asks us to do. Some visual processing is used for this and for recognising the chords and patterns we have to find on the keyboard.
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How does a blind pianist manage then? There are thousands of little sensors on the tips of our fingers which enable us to imagine in 3d what we are feeling with them. When a beginner can't resist looking at their hands every other note, I remind them about this and encourage feeling for the gaps between the black notes, to remember where the Cs and Fs are and to keep looking at the music until they are more experienced to know when it is necessary to look down. Eyes are most useful but it's interesting to switch them off sometimes. In order to test the security of a new piece it's helpful to play slowly in total darkness at different speeds, stopping at different places and restarting again. That has to be an important difference in the approach of professional and amateur. Amateurs practise until they get it right .... professionals practise until they can't get it wrong. However, if the amateur thinks professionally in daily practice, progress and enjoyment can increase considerably. So although the eyes are our main tool when learning to read music, we need to make sure they don't make other senses lazy.
When starting, there is so much visual information to take in that many students experience overload. The best idea is not to look too far ahead, get equally confident in both clefs and above all learn to recognise the notes instantly. The eyes can also help us to follow the musical line as it goes up and down – a most important and frequently overlooked trick. After all a professional won't be naming the notes as the music progresses so this is the main tool they use, making sure the fingers not being used are close to the notes and following the music carefully with the eyes. For the beginner especially, if the fingering itself is placed close to the notes, then the student is more likely to take in information about that note, reducing the tendancy to be totally dependant on fingering and to develop reading the music.
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3 Ears
Ears are are obviously essential for playing the piano but there's a great deal of difference between just hearing and listening. Hearing is the physical means of getting the sound into one's brain. Listening is switching on the analytical parts of the brain so that we are really aware of what kinds of sound are being made and how they are behaving. Processing that information is an important part of musical understanding and of playing a musical instrument. However, let's concentrate firstly on the hearing parts of the process. Here is a very simplified breakdown of what happens.... The piano string has just been struck by the hammer and vibrates back and forth many times a second from about 50 times for a low note 11,000 times a second at the top of the piano. This causes subtle changes in air pressure and those vibrations are picked up by our very sensitive eardrums.
The sound is too loud for us at this point so the tiny muscles attached to the hearing boned - the hammer anvil and stirrup - suppress the sound's and make them acceptable to the cochlea -
a very clever organ which looks a bit like a large snail but even more skilful because it has many thousands of tiny hairs protected which vibrate in sympathy with the info from the hearing bones and eardrum. Each one of these hairs represents different sound frequencies - and all of them transmitted by the aural nerve to the brain's aural cortex. This is where all the info is processed and preceived, depending on how well developed that part our brain is. We all hear the same sounds when a piece of music is played but it means more to us if we understand what we are hearing. Does our hearing keep up with the speed of the music? Can we notice as deal tunes being played simultaneously? If it's an orchestra or other group of musicians playing, can we pick out the various instruments or singers in a choir. Can we understan how the composer starts with one idea and skilfully develops it into another and yet another? Can we differentiate between short notes and long notes or between notes which are joined or detached? Do we receive the emotional and intellectual message which the composer is sending to is us via the hands of a great pianist.
To achieve this level of understanding is a worthwhile life-long and infinite journey. All this starts with the vibrating string, but how do we influence the way that string vibrates. You may have noticed that not all pianists sound the same – the reasons will hopefully become clear to you with the Clifford Evans Piano Method.
4 Ear care
Continuous noise level causes gradual damage to hearing if too loud, but exactly what is too loud? Anything below 75db is apparently deemed to be safe but 85 dB and above will cause damage. It's advisable to avoid sounds which are too close, too loud, or too long. Sudden loud noises can also cause damage because tiny ear muscles in the middle ear - especially the stapedial muscle - hasn't got enough time to react quickly enough to protect the cochlea, which can then become damaged. Orchestral players have problems depending where they are sitting in the orchestra. Pop concerts cause problems especially if you are too close to the loudspeakers. Playing piano too loud and with the wrong technique in a small echoey room is also not adviseable. You can go many years without problems and the damage is not obvious until accompanied by normal ageing or when the ears just can't take any more. Then it's too late and distressing with nasty conditions potentially developing like tinnitus, hyperacusis, distortion, reduction of hearing ability and deafness. It really is worth looking after your ears before it's too late. If your piano is digital you will have less problems because you can control the volume. If you have an acoustic piano in a small room, consider installing thicker curtains or putting a blanket between your piano and the wall. If you have a grand piano in a small room, you can close the lid completely and put the music stand on top of it instead of sliding it along the provided rails.
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5 Spine and Pelvis
The spine plays a vital part in
posture and is well worth attention. Sitting height is critical and depends on the difference in the length of the upper arm - the humerus - and spine. If we sit up straight with the back in an S shape not curled over like a C shape then we are less likely to get pain in the neck and lower back. The way to calculate sitting position is covered in the section on the shoulders. So, assuming good posture with a nicely S shape spine and with the hands on the keyboard we are ready to go. However, we won't be staying in the centre of the keyboard for long and will need to move up it to the right and down it to the left. When we see a pianist playing the camera rarely shows the back of the player and the enormous amount of work done by the spine is not apparent from the side shots. The shoulders at the top of the spine and the pelvis at the bottom are of course involved in any sideways movements, but don't forget the feet which help stability and thereby protect the lower spine as we move from side to side. If you move up to the right, then put the foot out to the right too or to the left when moving downwards. Pedal makes things harder, but will be covered in its own section.
Without the next trick we would be playing piano as if riding a bike round corners: you've guessed it - the right hand would be lower than the keys as you lean over to the right and so on with the left hand. There is a simple solution. The challenge is to retain the hands in the horizontal plain as we move up and down the keyboard. For this to happen and avoiding the raising of the wrist as we move - the shoulders, spine and pelvis have to form a flexible moving parallelogram. However it's more accurate to define it as an isosceles trapezoid as the top and bottom are not the same length. The simple solution is to raise the right shoulder slightly as you go up the piano and raise the left shoulder slightly as you go down the piano. Now we are keeping the shoulders parallel with the keyboard in its horizontal plain. There is still the chance of getting the elbow attached to the ribs as we move up and down, but this can be eliminated by keeping those elbows at 45 degrees – in other words “Out” but not “Up”.
More Pelvis options
In the above description of the fluid trapezoid, the body weight was transferred from left pelvis going down and right pelvis going up resulting in some lateral pelvis movement but not to the point of wriggling up or down on the piano stool! Normally we sit on the front part of the pelvis retaining the S shape spine and leaning 1-2 degrees forward to assist the pelvis pointing backwards. This is part of retaining the S shape of the back and avoiding strain and pain in the small of the back.
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For very advanced players, sitting on the back of the pelvican be useful when using a straight spine pointing slightly away from the keyboard, combining this with a straighter arm and a more gentle angle of the fingers when depressing the keys. This imporoves the cantabile (melodious) quality of the sound as it uses the weight of the whole arm and not just the upper arm. Employ this when playing a slow, beautiful melody full of long notes. Watch Arthur Rubinstein on YouTube.
Advanced: use the whole of spine, pelvis and shoulders as one unit rocking backwards and forwards, transferring the weight of the whole body onto the keys. For example in the opening chords of Tchaikovsky concerto no 1 in order to produce a loud, warm sound above the orchestra. Now the spine and pelvis are working together.
6 Shoulders
Shoulders, posture and
sitting height are critical and are determined by the difference in the length of the upper arm (the humerus) and the spine. We should sit up straight with the back in an S shape, not curled over like a C shape causing unnecessary stress at the neck and small of the back. Also, make sure that the pelvis is pointing backwards so you are sitting on the front of the pelvis (not the back of it). The elbows should be no more than 10 mm above the surface of the keys - slightly higher than dead level with the keys. Get someone to to help you check this with their eyes at keyboard level or use a camera and tripod. Now adjust your piano stool accordingly and you have a formula that will help you anywhere.
Back to those shoulders - are they really relaxed? The old fight or flight response is a hurdle to overcome and originates from long ago to protect us in dangerous situations particularly the thinnest part of the skull at the back. The shoulders go up, the head goes back and all the muscles freeze up - OK for self protection but no good for piano playing and relaxed shoulders. Simply being told to relax is not sufficient. Concentrate firstly on your lower jaw, relax it by opening the mouth slightly whilst being aware of relaxing neck muscles. Now follow them along the the shoulders down the arm and you will achieve a more relaxed state for playing the piano.
Upper Arm
Have you ever thought of the upper arm as being the breath of the pianist? Sounds odd but that's the truth. First we might have to revise how we think the art of piano playing works. It is a common misconception that in order to play louder on the piano, we press harder. Many fall into that trap only to produce a harsh sound the louder they play; or if pressing gently to try for a quiet sound it's likely that the sound will be indistinct and not be heard clearly at the back of the room or hall. So how do we cope with this? By using arm weight and gravity instead of applying force to the piano.
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Liszt used this technique.
See Biography) If the upper arm biceps muscles are relaxed, there is available weight which we can direct and allow to be transferred to the keys. If those muscles are contracted (tightened), then the weight is held back and never reaches the keys. This is when we might be tempted to press harder to increase the volume: better to relax the biceps and let nature enhance the sound for us. The result is less wear and tear on the joints and a warmer, beautiful sound. We can either relax the biceps completely for the loudest sound or tighten it a little for medium volume or tighten it completely so that no weight gets to the keys. Now we only have the finger action at our disposal and the resulting quiet but clear sounds can be controlled and successfully achieved instead of a rather hit and miss approach where youcan't anticipate the result. It's all about controlling the sound and the biceps play a large role in this. There are of-course other factors dealt with in the section on fingers.
Lower arm
The lower arm plays a vital role of transferring that valuable weight from the upper arm to the fingers in addition to various movements which facilitate the work done by them. They are: rotation, circles, up-downs and lateral movements.
Rotation of the 2 forearm bones - the radius and the ulna - requires an inflexible wrist so that momentum goes straight through to the fingers. In this forearm rotation movement the forearm and hand lock together and work as one unit. It's comparable with the action of using a screwdriver but less stressful. The ulna is fixed at the elbow so rotation of the inner forearm is less that the outer forearm because that bone - the radius - is free to move almost 180 degrees. The trick with using this movement in piano playing is to equalise these movements. Luckily this is possible because like most piano movements, they are tiny. However, we have to exaggerate them at first so the brain learns the motor coordination and muscular memory. When this is secure the movements are reduced and if you are watching a pianist you probably wouldn't even notice unless you knew what look out for.
Circles can be clockwise or anti-clockwise according to the requirements of the music and need a flexible, relaxed wrist. I'm called them circles for ease of reference, but they are in fact ellipses or “squashed” circles. Although there is minimal movement in the elbow and shoulder joints, it's useful to think of the movement originating at the elbow as it moves in a way not unlike whisking an egg, or stirring your coffee but with a relaxed floppy hand. These circles not only direct the arm weight onto the notes for a good clear sound, but also enable a smooth transfer of weight at exactly the right time to give a good
legato – the joining of the notes. It's worth also noticing that the top part of the circle with no notes, is faster than the bottom part which contains the notes.
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Up-downs of the forearm also originate at the elbow with as little as possible movement from the upper arm and a response from the wrist that rather makes it look like a door hinge opening and closing, but in this case rising and falling. This movement is often used for example with repeated chords and the effort is put into lifting the forearm and then letting it drop by its own weight so that we exploit the weight and gravity principals of the method.
Lateral movement of the arm helps us to get to the correct notes more easily and move up and down the keyboard. How to move the whole body when doing this will be dealt with later but the main thing to remember is that we need to move the body left and right in a way which prevents the elbows from clashing with the ribs. Those elbows need freedom of movement.
Wrist
The wrist is considered in the section on the lower arm and the hand because obviously it always works in conjunction with them, enabling much flexibility of all the movements required for piano playing - particularly those which involve the lower arm and hand. I've found that the wrist is often much neglected and such omission frequently leads to injury for the pianist - amateur or professional. The 7 bones enable our circular, lateral or up-down movements which enable everything so far described, giving the hand great versatility. Sounds obvious up to now, so what's the fuss about ?
It's most important function is to act as an efficient shock absorber, helping to protect us from injury and make a more beautiful sound. The wrist works a bit like car suspension absorbing the bumps on the road and giving a smoother ride. There are forces in piano playing which likewise need to be absorbed, so that we produce a beautiful sound as well as looking after our joints, muscles and tendons.
Even when it rotates together with the arm, a rigid wrist runs the risk of a ganglion - the pianist's hazard. This can develop between the membrane which contains a fluid-like substance designed to stop the wrist bones rubbing against each other. Reoccurring tension in the wrist can cause a tiny puncture in this membrane, allowing the liquid to leak and harden. This is nature repairing, but leaves a lump called a ganglion. Further tension can cause inflammation to the surrounding tissues, causing severe pain and eventually restricting movement. The good news is that if we develop as perfect a technique as possible, this lump can shrink over time. Speaking from experience, the only way I was able to eliminate pain and continue playing, was to develop the Clifford Evans Piano Method over a lifetime of playing and teaching. It's a tall order to achieve everything in this method but even the basics make a huge difference to sound quality, control and reduction of injury.
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Hands
Lateral movement is also used by the hands in again conjunction with the forearm and wrist. It's not a large movement, but is most useful when coordinating with the thumb. If the thumb goes under the hand or the hand comes over the thumb as in scale passages, they work together nicely. As the thumb goes under the fingers, the hand moves laterally in the opposite direction.
Its pretty obvious we need the hands to play the piano but nature plays a major role here and we are stuck with what we are given. The trick is to understand the size and shape of your own hand and work within its limits staying as relaxed as possible to avoid injury and strive for a beautiful and warm sound.
Small hands that can barely stretch an octave will always have to be careful what repertoire they choose. A 9th stretch is very helpful and a 10th makes Christmas come early. There are many damage limitation exercises that help the small hand, including modifications of fingering, stretching an octave by repositioning the thumb at the front edge of the key especially if you use the angle of the hand to place the 5th finger further in the note. Other useful compromises involve redistribution of notes, spreading of chords and as a last resort, omission of notes.
Large hands have problems too. The larger hand may also have thick and long fingers which get in the way of delicate fast finger work and the 3rd finger may even get stuck between the black notes. To avoid this they have to exploit the arm at an angle of 45 degrees and that often solves the problem. In addition to lateral hand movements already explained, the other main movements of the hand are....
Opening and closing of the hand. For example opening of the hand for octaves - easier for the larger hand because some of the same muscles are used to relax and make a floppy dropped hand which leads us to the next movement....
A floppy hand combined with up and down movement and flexible wrist is used to create the shock absorber effect for better tone or as part of the up down hand and forearm used for tone control and phrasing – more above this further down.
Rotation in fixed position as extension of the forearm and ideal for passage work like the Alberti bass (Mozart Sonata in C major K 537) or tremolo octaves (Beethoven Sonata Pathetique).
Clockwise circles with flexible wrist as in broken chords (down) and anti-clockwise circles (up)
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The fingers are obviously very important for playing the piano, but they are just the tip of the iceberg and work best if supported by everything previously described. As with the other limbs, we can fall into the trap of pushing or digging into the note with the finger which results in exhausting work and poor control of the sound's quality. That's nothing to be ashamed of because in the rest of life we all tend to push anything which requires moving - like opening a door. Try squeezing instead of pushing downwards and you will be applying J.S.Bach's Clavichord technique. See Bibliography.
I got it wrong for many years until my teachers in Russia, Professor Pavel Serebriakoff and Elena Serkova, introduced me to J.S.Bach's technique of playing the clavichord – an important predecessor of the piano with its hammer-like action striking the string.
This is a technique of squeezing the key towards the inner palm of the hand, but without sliding along the key. The finger should be activated in a gripping type action originating from the 1st knuckle with numbers 2 and 3 following progressively. Success depends on a further 2 factors : the finger should be initially in a semi-curved state as if holding a pear with the thinner part touching the fingers. Using a tangerine to shape the hand results in the dreaded digging and pushing action so hard to control when contacting the key with the tip of the finger. Avoid over-curled or straight fingers, which produce the wrong angle and sound making it very difficult to vary to volume, length and quality of the note.
Now that we have a finger action based on a natural gripping movement, we can vary two aspects as required by the music: the depth and speed of the squeezing finger action. We can perform a shallow, deep, slow or fast squeeze and and all the variations of these. Direct the weight from the biceps through the forearm to the fingers and we begin to understand how the most musical of pianists at any level manage to produce such a variety of beautiful sounds at all dynamics.
Another important but quite advanced aspect when quietly repeating the notes is “playing the bed of the key” (as in Beethoven's “Fur Elise”) – which means feeling the subtle contact with the moving hammer whilst preventing it from coming back to its first resting place by a part called the jack. The result produces a longer and quieter note without being
staccato. This function is not available on all digital pianos.
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12 Thumbs
Thumbs are a slightly different scenario, being designed to work almost in the opposite direction to the fingers - ideal for gripping the branches of a tree a few million years ago, but not useful for piano playing. The thumb would like to go horizontally across the keys but that too is not useful.
The pianist would like to go straight down with the thumb when striking the key but that is soon uncomfortable and even painful. However, sometimes this is all we can do when the thumb is already under the fingers as in an arpeggio. This results in the thumb being the only digit which uses two techniques as required. However, whenever possible we should use the compromise of activating the thumb by striking the note at 45 degrees which is still fairly comfortable and has the added advantage of reducing the volume of the note. Whilst doing this it's necessary to move the thumb from the first joint at the wrist – an often neglected joint. This turns it into a longer leave so a smaller action from the wrist joint delivers a larger movement at the pad of the thumb - or rather that is the side of the pad of the thumb because of our 45 degree angle of striking the note. Using this wrist joint as much as we can also helps protect the other joints of the thumb.
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Prepared stroke technique
This is meant not only for advanced and professional pianists, but under the correct supervision can be gradually adopted from the very early stages of piano learning. In fact it is of great benefit to do so because adding it later can be harder. All the techniques outlined so far still won't produce that beautiful fluid sound which we desire. We require the prepared stroke with its Up, Drop, Rest routine is the 'centre of the onion' as far as my piano method is concerned, but I will not take all the credit for this. I owe the core this knowledge to a great teacher and pianist who introduced me to it. That pianist was Harold Rubens, in whose obituary in one of the International Piano Magazines was described as being known for his 'golden sound'. I don't know how he acquired this technique, but in addition to the hint in Harold Schoenberg's book “The Great Pianists” and Liszt weight, you can see that the pianists who achieve such quality of playing definitely use it. You can see for yourself on YouTube videos of Arthur Rubinstein, Michelangelo and Claudio Arrau.
Practising the prepared stroke
The basic version of this technique involves a slight lift of the forearm before striking the note with the finger, although I prefer to describe this as squeezing the note from the the muscular memory and 1st knuckle but with definitely without sliding along the key. At the point of squeezing the note, the biceps are contracted with their weight held back. We then relax them and allow the weight of the arm to drop onto the key. All through this process, the fingers have not left the keys because the flexible wrist and floppy hand enable them to stay there by acting like a shock absorber for any energy returning to us from the hammer, much like the suspension of your car makes the bumps on the road less noticeable. Remember Newton's law ... for each action there is an equal and opposite reaction. It's this opposite reaction from the impact of the hammer which we need to absorb in order to reduce harsh tone. After all this, you rest in the note before beginning the process all over again.
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Phrasing and prepared stroke
If we want to play 2 notes in succession or a series of duplet phrases, we go through the same procedure again but this time we hold on to the first note for its required length - say a quaver - whilst leaving our arm weight on it for its duration. When ready to play the next note we do 3 things simultaneously...
1. Squeeze the note firmly (without sliding)
2. Contract the biceps
3. Lift the forearm.
We are now on the up-lift part of whatever note is played next. In this case it's another duplet and we
can play a whole series of them. There is however a subtle refinement to perfect the joined note, (legato) slurred notes – the fingers provide a slight overlap with the biceps only contracting as the first note of the 2 is released
If a triplet or quadruplet is required, the first and last of the 3 or 4 notes are treated exactly as the first
and last notes of the duplet. However the notes in between them need us to just continue with a relaxed biceps where the weight of the arm is being transferred from one note to the next aided by a slight overlap of the fingers
Jumps and the prepared stroke
If, for example there are jumps between the described phrases described above, then the “Up” stroke of the last note of a phrase becomes the prepared stroke of the first note of the next phrase. With the biceps contracted at this point, the arm simultaneously goes up or down the keyboard for the jump, adopting a trajectory without rising above the keyboard more than 10-15mm. When a point immediately above the note at the end of the jump is reached, the biceps are relaxed and the next phrase or single note played.
Prepared stroke with different limbs - especially the whole arm
The prepared stroke can be used with whole arm, forearm, hand or just the finger. Applied by the whole arm - upper and lower together, you can back slightly in order to straighten the arm, thus making more weight and volume available - excellent for chord work as in the opening of Tchaikovsky Piano Concerto number 1, or for getting that extra weight onto a cantabile melody with a series of long notes which need to be especially sonorous as required in many Chopin Nocturnes.
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Prepared stroke by the hand
A slight prepared stroke of the hand activated really by lifting the hand by the forearm from the wrist, needs to be coincided with the squeezing fingers as the hand comes down. Once again it doesn't have to be a large movement especially as it exploits the whole of the hand weight which is much more than that of a solitary finger. This prepared stroke of the hand is ideal for any notes or chords which need to be carefully controlled for quality and volume.
Prepared stroke by fingers
Use of weaker and stronger fingers. When we need an exact but quiet dynamic and need to know in advance what loudness that will be, in can be useful to use a tiny prepared stroke by just one finger. This means lifting it from the knuckle joint but so imperceptibly that the finger pad doesn't lose contact with the surface of the key. In other words we are just exploiting the springiness of the flesh available to us on the finger pad, but that's all we need for subtle control
Speed of the prepared stroke.
When learning movements like the up-down prepared stroke it's necessary to exaggerate them slightly so that the brain learns to coordinate the up-downs with the correct notes and phrasing. If you watch the top classical pianists who use this technique you'll see that the movements are as little as is necessary to achieve the required result. So although we must initially practise them with large movements in order to teach the brain the motor coordination. When the brain fully understands the new instructions and some muscular memory has developed, we can reduce the degree of the movements as well as increasing speed.
Conflicting instructions
Probably the hardest aspect of controlling the limbs is deciding which one needs to be relaxed and which needs to be contracted. It is fortunately something which the brain gets used to with regular coaxing. For example there are some muscles around the elbow which need to be contracted in order to raise the lower arm. This at the same time as usually relaxing the biceps. This can be described as sending a positive instruction (to the lower arm lifting muscles) at the same time as sending a negative instruction to the biceps (saying relax please).
The same applies to the floppy hand which we need when playing most aspects of the technique (but not rotating forearm). As an example, let us take a scale of 3rds. The biceps have to be contracted slightly for the forearm lift and move between each of the 3rds. During this time the wrist and hand have to remain relaxed and floppy. Here again we have simultaneously positive and negative instructions which take some acquiring at whatever level if it's a new acquisition to your technique at any level.
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Most people find these conflicting actions the hardest part of controlling limbs, muscles and weight, but once you have acquired them, your playing will develop in an effective and enjoyable way.
Transitioning from one movement to the next
Often we have a passage using a movement which is followed by another completely different movement. The can be very disconcerting at first but all we need do is...
1. Make sure the individual movements are practised to the point of fluency.
2. Take one bar either side of the transition and practise the changeover.
It's an excellent idea to practise transitions from any movement so that when this is encountered in a piece of music, you are already equipped.
Combining movements – one in each hand
Sometimes we need to use one movement in the left hand and a different one in the right hand. My favourite example is in the first movement of Beethoven's Sonata in G major opus 14 no2 starting at bar 89 where we use the floppy hand forearm staccato in the left hand and clockwise circle in the the right hand for the triplets.
Its a good idea to practise all the groups of combined movements so that again you are equipped before encountering them in the music. Just to recap, they are...
1. Up Down prepared stroke
2. Clockwise circles
3. Anti-clockwise circles
4. lateral hand movement
5. rotating forearm
6. floppy hand
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Advanced
Sometimes we need to use 2 movements in the same hand. For example in a 5th finger melody combining with triplet quavers where the 1st of the 3 is the melody note, we could use clockwise circles and incorporate a down stroke at the point where the top part of the circle joins the bottom part. This makes the top part of the circle the prepared up stroke for the down stroke.
14 Legs and feet
The legs and feet play their part in balancing and supporting our whole body and you can learn more about this in the section on the spine and pelvis for moving up and down the piano. As far as using the feet for the pedals are concerned, here are some basic principals: the heel has to stay on the floor at all times and the ball of the foot stays in contact with the pedal whilst depressing and releasing it. It's particularly important to retain contact as the spring of the pedal brings the pedal up: this is to to avoid tapping the pedal with the foot which of-course makes a noise as well as causing potential damage to the lyre of the grand piano. Last but not least - losing contact delivers imprecise pedalling and spoils your musical intentions. When the pedal is not being used, the ball of the foot remains in contact with the pedal ready for action. For advanced and often not so advanced players, there is another turn in the story.. If you have to use the pedal at the same time as moving up and down the piano, it will usually be the right foot. It will therefore be hundreds of pages of music necessary to angle the right foot so that the heel is pointing to the right – the whole of the lower leg is naturally involved and is not altogether comfortable, but it's another trick in your palette when using the pedals, should you need it and is useful for reducing strain on the lower back.
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Using the pedals
The Right pedal Before starting on the legs and feet, let's just look at the pedal functions which they operate. The right pedal or sustaining pedal operates the dampers, which normally rest on the strings to stop them vibrating. As the foot goes down, the dampers are raised from the strings, allowing them to vibrate freely. As the foot comes up, the dampers return to their original position, killing any existing sound and once again preventing the strings from vibrating.
Clever sustaining pedal
After a note is played it dies away, but will a fast and deep depression of the sustaining pedal we can hope to increase the harmonics and give the illusion of crescendo through the note. (As at the end of the first movement of Beethoven's Sonata in Eb opus 81a). Once we progress to the next note we can control the speed that the damper drops into the string and therefore the precise or gradual ending of the note. This requires experimentation to judge the instrument and room acoustics, but I recommend a tiny overlap of the pedal just to make sure there is a good join between the notes and that the harmonics are kept going as long as possible.
The Left pedal or Una corda is sometimes called the soft pedal because it produces a quieter sound. On a grand piano, the keyboard moves to the right so that the hammers strike only 1 or 2 strings instead of all the strings but mostly 3. On an upright piano a similar effect is achieved by pushing the hammers forward and reducing their striking distance and resulting acceleration. On a digital piano the softer notes of the Una corda are achieved by the internal electronics.
The middle pedal on a grand piano is called the sostenuto pedal and retains the dampers in their lifted position if they were already up at the time of pedal depression. This means that you depress the pedal after you have played the notes and held it down. Again on a digital piano the effect is achieved by the electronics as opposed the mechanical means. On an acoustic upright piano, the pedal is usually a practice pedal, giving a very quiet unobtrusive sound if you are concerned about your neighbours or other members of your family. The resulting muffled sound is achieved by lifting a long piece of felt into position between the hammers and the strings.
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Memorising music
Why play by memory? It's actually easier to play by memory than with music when much of the concentration is taken by looking at the notes and translating them onto the piano keyboard. If you play by memory, this, now spare, brain power is free to concentrate on the real job at hand - that of playing and interpreting the music as well as looking at your hand for those big jumps. It's useful to know about memory types before setting out to memorise a piece of piano music. They are: muscular memory, aural memory, visual memory relating to the music page, visual memory relating to the geography of the keyboard and lastly but most importantly, intellectual memory the type of memory which is based on analysing the piano music in detail. People have varying degrees of ability in these skills.
Muscular memory
Muscular memory consists of the movements of the hands
arms and fingers which the brain recalls easily if there has been a lot of repetition in the learning process. In order to develop this memory efficiently. It's essential to learn the piece of music using the correct finger on each note every time you play or rehearse the music. Repetition of short overlapping phrases improves muscular memory.
Aural memory
Aural memory consists basically of remembering the tune in your head. This can be developed to include the chords accompanying the tune as well as any other detail, assuming that you can recognise and remember the different sounds. Most of us have some natural aural memory because we can sing a tune without access to the music, but highly developed aural memory requires much training even if you are a naturally gifted musician.
Visual memory
Visual memory of the music page is about recognising patterns and shapes on the page like photographic memory. You can remember the way the piano music is set out on the page and actually what the notation looks like in the form of a graphic in your mind. Visual memory of the keyboard is about recognising the geographic patterns and shapes on the keyboard itself, beginning in the very first lesson by noticing that there are black and white notes in groups of twos and threes. This can be developed into recognising the complex keyboard patterns created by the piano music and starts by noticing where the semitones and tones come as well as the distances between one note and the next, the intervals.
Intellectual memory
Although the types of memory explained so far, are useful in their own way, none of them are completely reliable if you want to remember the music with confidence so that you can play to others in private or public. As soon as you play to others, you will feel that you are being watched and therefore under pressure, so the most reliable way to combat any nervousness, which can lead to mind wandering, lack of focus and resulting mistakes, is intellectual memory which consists of being mentally aware, knowing and analysing how the piano music is constructed in every detail. Intellectual memory includes knowing all the scales, arpeggios and chords as well as their progressions, recognising and remembering them as they appear in the music. The better you have studied the music, the more easily you can relax and enjoy it even under the pressure of playing in the lesson or to others. Intellectual memory is the most reliable and in theory you should be able to actually write down the music as it is.
Chords
Chords help you memorise piano music because they show how most of the notes relate to each other and if you learn about chord progressions, it assists the understanding of the music. Many of the patterns are repeated thousands of times in all styles of music and it is these reoccurring patterns which enable musicians to remember securely, two hours of piano music under pressure in a piano recital, for example. Secure memory results in being free to concentrate and focus on the interpretation and performance of the music.
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Memory testing
Even professionals make mistakes and the human element is always present, but there are quite a few methods for testing and improving memory. They include playing the piano music in different keys, playing in the dark or blind-folded, deprives one of visual memory and forces the use the aural memory and increases careful listening. It also tests the reliability of any jumps in the piano music. Another method is to deprive yourself of muscular memory by playing the left hand notes with the right hand and vice versa, one hand at a time. It's even useful to test your memory by playing the tune with one finger instead of the chosen fingering
Sight-reading
Sight-reading is the skill of reading and playing piano music which you haven't seen before. This is a very useful because it enabled you to try out and enjoy new pieces of music without practising them. The idea is not necessarily to play perfectly, but to get most of the notes sounding and especially to keep going. Continuous and flowing rhythm is a priority as well as remembering what key you are playing in and to include the correct sharps or flats. Although undesirable, wrong notes will be inevitable so it's better to miss out a note than play the wrong one. Look and study before sight-reading the music. Before you play anything and try to understand in advance what is going on. The more information you can take in before playing, the better you will play the music. The two main things to look out for are the key and the rhythm.
Try not to look at your hands on the keyboard, but keep your eyes on the music. You can place the music higher up on the music stand so that it becomes difficult to look down. That's good for your sight-reading and if continue to look up and down, you'll get neck ache, which I would certainly not encourage! You could also put some books at the end of the piano lid and then close it except for a small gap for your hands. Of-course, mind the lid doesn't fall onto your hands. Both these methods will encourage you to keep your eyes on the music and above all, keep going.
The Clef
When the clef changes This can be an easy trap to fall into. Often one hand can change into the clef of the other hand. For example the left hand could play in the treble clef or the right hand could play in the bass clef, meaning that either hand could be playing the notes of either clef. It's a good idea to get used to doing this to avoid surprises, as well as looking out for this in the music. Remember also to notice at which point the piano music reverts to the normal situation. By the way, changes of key signature or time signature are preceeded by thin double bar-lines.
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Key-signature
Make sure you know what key the music is in by looking at the key signature. Is it in a major or minor key? You should have all the key-signatures by memory and be able to recognise the key instantly. Check that the piece ends in the same key as it starts in and whether or not it actually changes key in the middle of the music. The ending key takes priority and the music is technically in that key, even if it begins in another.
Accidentals
These are extra sharps not in the key signature and help you decide whether you are in a major or minor key. In the minor key the 6th and 7th degrees of the scale are sharpened on the way up and flattened on the way down. These are flats or naturals placed in front of the first incident of that note in a bar. If there is another incident of the same note in the same bar, another accidental is not required because the first one is valid for the whole bar. At the next bar-line the music reverts to the key-signature at the beginning of the line. Unlike the accidentals, the sharps or flats in the key signature last for the whole piece and apply to every register (octave) used in the music. Sometimes there are unnecessary accidentals added, which can be confusing.
Rhythm
Then study the rhythm of the piano music - still without playing it. Use a metronome for helping you to play with good rhythm and your digital piano or keyboard will probably have a very accurate one.
At the beginning of the music is the time-signature, which tells you what type of beat to expect and how many of them are in each bar. For example 4/4 is four crotchets or quarter-notes in each bar. It's not easy to practise with the metronome and it's good to get fluent with the notes first, then include counting under your breath 1+2+3+4+ crotchets in a typical 4/4 bar or alternatively 1234 1234 quavers.
When you change from one note value to another, make sure that the pulse remains the same either side of the change of note values. When there are rests, make sure you keep the main beat going without rushing.
When there are no notes to help you feel the beat, it's all too easy to increase your musical pulse without realising it. All you have at this point is the speed of the pulse inside you. Lastly, check if the music changes time signature during the piece there are usually helpful metronome markings at this point to show the relationship between the 2 time-signatures. If there are none, then the pulse stays the same.
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Rhythm can easily become inaccurate when you have a tie, which looks like a slur but as it joins two notes of identical pitch (but not necessarily length), you hold on the first one for the combined value of both notes without repeating the second one unnecessarily. Count very carefully through the ties. Many find slurs and ties confusing. A slur is over or under a set of notes of different pitch and should not be confused with a tie. A slur behaves quite differently and means that you play the notes under it legato.
Speed
Next look through the music and find the most difficult part with the fastest notes. How fast you think you can play these notes will determine the speed you choose to play the music. Choose a speed which is slower than you would like to play the piece, because once you start you shouldn't hesitate or stop when sight-reading.
Look ahead
Try to your eyes are slightly ahead of your hands, but only a fraction. There is in fact a way of practising and forcing your eyes to look ahead a little. You can get a relative or friend, ideally who already reads music, to put a card over the bar which you are currently playing as you play each note. This will encourage you to look ahead at the next bar. Later you can ask your friend to cover up the whole bar or even two bars at a time, forcing you to look further and further ahead. If your friend or relative doesn't read music, it can still be helpful fun because they won't be able to judge the speed of your reading. Eventually what you have to do is look at the bar, memorise it instantly and play it whilst already looking at the next one. You can see why it's called "sight-reading".
Patience in sight-reading
Most important is to be patient with yourself. This really helps your progress with sight-reading, although it may take many months to improve to your satisfaction. Read some new music every day, try to relax and enjoy doing it. Practise putting one of the above ideas into your session each day or even try one idea per week if time is short. The good new is that if you master this skill it will help you learn new pieces faster too and you can even develop into using your piano playing by accompanying other instruments or playing piano duets – that most enjoyable of musical activities.
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Nerves
Most of my pupils are a little nervous in the lessons and the only time I hear what they can really do, is if I manage to hear them unaware that I'm listening, and the diference is noticeable. Even after years of reassuring them that I'm never judgemental and only there to assist, they are still nervous. So I've concluded that this is a natural part of the human spirit which enjoys challenging itself to try and achieve the best results we can. If you can channel that nervous energy into increasing your concentration and focus in the piano lesson at the same time as thinking about and enjoying the music you are playing, then the nerves will reduce and even disappear with practice.
Conclusion
Piano playing belongs to everyone but is accessible only to those who have either determination or natural talent or both, not to mention a passion for music. There are of course the lucky ones born with the right genes and nurturing environment, but after a lifetime of helping adults who always dreamt of playing the piano and who pluck up the courage, they are more often than not pleasantly surprised at what they can and do manage to achieve. It doesn't mater how talented or hard-working you are, progress will be limited if you don't have an efficient and practical technique creating the sounds you need. If the challenges are broken up into easily manageable mini-projects, progress can be considerable and rewarding.
It's not always easy to find time to develop the necessary daily practice with the rigours of modern life, but much can be achieved with a regular, quality routine. For the beginner, 30 to 60 minutes can produce good results. Professional work of-course requires much more time and 8 hours a day passes quickly when memorising hundreds of pages of music. They too need to organise their practice very carefully to achieve the programmes and the same care should be taken by the complete beginner. The trick is to learn professional solutions about how to use your practice time. Sitting down at the piano and playing for enjoyment is great, but it doesn't create new skill - that takes planning and self- discipline. I hope this e-book helps you on that journey and wish you well in this most rewarding of quests, which requires Quality, Understanding, Excellence, Success, and Training, but the greatest of these is Training.
Clifford Evans 20th October 2021 Ipswich UK
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BibliographyWhilst studying in Russia, one of my great teachers, Elena Vasilevna Serkova, referred me to this book as evidence of Bach's keyboard technique which she taught me to apply to the piano with really good effect.
J.S.Bach by Albert Schweitzer. 1923 Edition by Arthur & Charles Black London
“His touch was very complex. He aimed chiefly at a singing tone. To this end he did not merely let the key, after pressing it down, come to rest and then ascend, but raised it by a gradual drawing-back of the finger-tips towards the inner flat of the hand, so as to give the string the proper time to vibrate and die away. By this means the tone was not only prolonged, but also made more beautiful, so that even on an instrument so poor in tone as the clavichord he could play cantabile and legato.
This style of playing applies, of course, only to the clavichord, - where finger and string stood in intimate relation to each other, - and not to the clavicembalo. Bach's touch was therefore absolutely modern, for the latest theories upon the "singing tone" on the pianoforte agree in recognising it to depend not only on the striking of the keys, but also, to a great extent, on the regulation of their ascent. Bach is also modern in this respect, that he would have spoken not of a "touch" but only of a conscious transmission of strength and pressure to the keys. Sebastian Erard's invention of the double escapement (1823), which made possible endlessly varied gradations in the re-striking of a tone, would thus have been joyfully welcomed by Bach; the mechanism of the modern pianoforte is, in fact, mostly only the fulfilment of his boldest dreams. He would not have altogether agreed with the size of our keys and with the strength of pressure that they demand.”
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