Today, change ringing can be found all over the world, performed in a variety of media; but it remains most popular in English churches, where it was developed in the 17th century. A church's bell tower typically contains a set of few large church bells rigged to swing freely and known as a ring of bells.
The considerable inertias involved mean that each bell usually requires its own ringer. Thus, contrasted with a carillon, in which a large number of bells are struck by hammers, all tied into a central framework so that one carillonneur can control them all, a set of such bells is comparatively unwieldy—hence, the emergence of permutations rather than melody as an organizing principle.
The mechanics of change ringing on tower bells
Today some towers have as many as sixteen bells which can be rung together; six or eight bells are more common for the average church. The bell highest in pitch is known as the treble and the bell lowest in pitch the tenor. For convenience, the bells are referred to by number, with the treble being number 1 and the other bells numbered by their pitch—2,3,4, etc.—sequentially down the scale. (This system often seems counterintuitive to musicians, who are used to a numbering which ascends along with pitch.) The bells are usually tuned to a diatonic major scale, with the tenor bell being the tonic (or key) note of the scale. Some towers contain additional bells which are used to allow different subsets of the full number to be rung, still to a diatonic scale. For instance, many 12-bell towers have a flat sixth, which if rung instead of the normal number 6 bell allows 2 to 9 to be rung as light diatonic octave; other variations are also possible.
The bells in a tower reside in the bell chamber or belfry usually with louvred windows to enable the sound to escape.
The bells are mounted within a bellframe of steel or wood. Each bell is suspended from a headstock fitted on trunnions (plain or non-friction bearings) mounted to the belfry framework so that the bell assembly may rotate. When stationary in the down position, the centre of mass of the bell and clapper will be appreciably below the centreline of the trunnion supports, thus giving a pendulous effect to the assembly and it is this dynamic which is controlled by the ringer's rope. The headstock is fitted with a wooden stay which, in conjunction with a slider, limits maximum rotational movement to a little less than 370 degrees. To the headstock a large wooden wheel is fitted and to which a rope is attached; the rope wraps and unwraps as the bell rotates backwards and forwards. This is full circle ringing and quite different from fixed or limited motion bells which chime. Within the bell the clapper is constrained to swing in the direction that the bell swings. The clapper is a rigid steel or wrought iron bar with a large ball to strike the bell. The thickest part of the mouth of bell is called the soundbow and it is against this that the ball strikes. Beyond the ball is a flight which controls the speed of the clapper. In very small bells this can be nearly as long as the rest of the clapper.
Below the bell chamber there may be one or more sound chambers, (one of which is likely to house the clock mechanism if the church has one) and through which the rope will pass before it drops into the ringing chamber or room. Typically, the rope's length will be such that it falls close to or on to the floor of the ringing chamber. About 5 feet (1.5 m) from the floor, the rope will have a woollen grip called the sally (usually around 4 feet (1.2 m) long) while the lower end of the rope will be doubled over to form an easily held tail-end.
Unattended bells are normally left hanging in the normal ("down") position but prior to being rung, the bells will be rung up. In the down position the bells are safe if a person touches them or pulls a rope. A bell which is up is dangerous to be near and only expert ringers should ever contemplate entering a bell chamber or touch a rope when the bells up. The ringer pulls on the rope and starts the bell swinging. Each time the bell swings the ringer adds a little more energy to the system, similar to pushing a child's swing. Eventually there is enough energy for the bell to swing right up and be left over-centre just beyond the balance point with the stay resting against the slider.
The bellringers typically stand in a circle around the ringing chamber, each managing one rope. Bells and their attendant ropes are so mounted that the ropes will be pulled in a circular sequence, usually clockwise, starting with the lightest (treble) bell and descending to the heaviest (tenor). To ring the bell, the ringer will first pull the sally towards the floor, upsetting the bell's balance and causing it to swing on its bearings. As the bell swings downwards the rope unwinds from the wheel and the ringer adds enough pull to counteract friction and air resistance. The bell winds the rope back onto the other side of the wheel as it rises and the ringer can slow (or check) the rise of the bell if required.
The rope is attached to one side of the wheel so that a different amount of rope is wound on and off as it swings to and fro. The first stroke is the handstroke with a small amount of rope on the wheel. The ringer pulls on the sally and when the bell swings up it draws up more rope onto the wheel and the sally rises to, or beyond, the ceiling. The ringer keeps hold of the tail-end of the rope to control the bell. After a controlled pause with the bell on or close to its balancing point, the ringer will ring the backstroke by pulling the tail-end, causing the bell to swing back towards its starting position. As the sally rises the ringer will catch it to pause the bell at its balance position.
In English style ringing the bell is rung up such that the clapper is resting on the lower edge of the bell when the bell is on the stay. During each swing, the clapper travels faster than the bell, eventually striking the soundbow and making the bell sound. The bell speaks roughly when horizontal as it rises, thus projecting the sound outwards. The clapper rebounds very slightly, allowing the bell to ring. At the balance point the clapper will pass over the top and rest against the soundbow.
In change ringing where the order in which the bells strike is constantly being altered, it is necessary to time the swing so that this strike occurs with precise positioning within the overall pattern. Of course, precision of striking is important at all times. To ring quickly, the bell must not complete the full 360 degrees before swinging back in the opposite direction, while ringing slowly the ringer waits with the bell held at the balance, before allowing it to swing back. To achieve this, the ringer must work with the bell's momentum, applying just the right amount of effort during the pull that the bell swings as far as required and no further. This allows two adjacent bells to reverse positions; the quicker bell passing the slower bell to establish a new pattern. Although ringing up certainly involves some physical exertion, actual ringing should rely more on practised skill than mere brute force; after all, even the smallest bell to be encountered in a tower will be much heavier than the person ringing it. The heaviest bell hung for full-circle ringing is in Liverpool Cathedral and weighs 82 long cwt 0 qr 11 lb (9,195 lb or 4,171 kg) (over four tons). Despite this colossal weight, it can be safely rung by one (experienced) ringer.
(Whilst heavier bells exist—for example Big Ben—they are generally only chimed, either by swinging the bell slightly or having the bell hung dead and using a mechanical hammer.)
Change ringing can also be carried out on handbells (small bells, generally weighing only a few hundred grams). This was particularly common during the Second World War when church bells often were not allowed to be rung (as to do so would have signified an invasion); although the ringers returned to the towers as soon as the war was over, for a number of years thereafter handbell ringing retained great popularity.
When used for practice by tower ringers, each ringer typically handles one bell, just as in the tower. But change ringing on handbells is today quite popular in its own right; and in that context the relevant physical realities of handbells (compared with tower bells) have their effect— on handbells each ringer usually handles two bells (adding considerably to the mental challenge). Likewise, a set of handbells often contains considerably more bells than towers ever do—sometimes several octaves' worth. Today many record-length peals, including the longest peal ever rung, come from handbell ringers.
Typically, change ringers using handbells sit or stand in a circle (like tower ringers). The towerbell terms of handstroke and backstroke are retained, referring to an upwards and downwards ring of the bell respectively; and as in towers, the ringing proceeds in alternate rows of handstroke and backstroke.
There is, however, a second school of change ringing on handbells, which uses a technique called 'lapping', or 'cross and stretch': the ringers stand or sit in a straight line at a single convenient table, from which they pick up a bell each time they ring it; and to which they thereupon return it. But as the sequence of the bells is permuted the ringers physically swap the bells accordingly; the bells actually move up and down the table and each row is rung in strict sequence from right to left. A ringer in cross and stretch thus does not have responsibility for his or her own personal bell but handles each as it comes.
Some handbell change ringers practice a hybrid of these two methods, known as body ringing: ringers standing in a line each hold one bell, exchanging places in the line (somewhat as in a hey) so that the changes sound correctly when the bells are rung in sequence from right to left.
Permuting the bells
The simplest way to use a set of bells is ringing rounds, which is sounding the bells repeatedly in sequence from treble to tenor: 1, 2, 3, etc. (musicians will recognise this as a portion of a descending scale). Ringers typically start with rounds and then begin to vary the bells' order, moving on to a series of distinct rows. Each row (or change) is a specific permutation of the bells (for example 123456 or 531246)—that is to say, it includes each bell rung once and only once, the difference from row to row being the order of the bells.
In call change ringing each row is specifically called for: one ringer (the conductor) tells the others how to swap their bells' places from row. In method ringing, by contrast, the ringers have learned a "method"—an algorithm to govern the swaps which they can thus perform on their own like clockwork; a conductor's intervention is needed only periodically, when a slight variation in the pattern is necessary, or to correct errors by the ringers.
Call change ringing
Most ringers begin their ringing career with call change ringing; they can thus concentrate on learning the physical skills needed to handle their bells without needing to worry about methods. There are also many towers where experienced ringers practise call change ringing as an art in its own right (and even exclusively), particularly in the English county of Devon.
Calls are made with spoken commands such as "X to Y" or "X and Y" or "X after Y", in which X and Y refer to two of the bells by their numbers (not by their positions in the row); such a call signifies that after the call a pair of bells will have swapped, resulting in X following Y. However, there are several different ways of representing any given change. By far the most common two are known as "calling up" and "calling down"; each has its merits and inconveniences, but generally any given tower will consistently use one system in preference to the other.
As an example, consider the following sequence of rows, and the calls a conductor would use to evoke them:
|Row||Conductor's intent||Call, if calling Up||Call, if calling Down|
|1,2,3,4,5,6||to swap bells 2 and 3||"2 to 3"||"3 to Treble"|
|1,3,2,4,5,6||to swap bells 4 and 5||"4 to 5"||"5 to 2"|
|1,3,2,5,4,6||to swap bells 2 and 5||"2 to 5"||"5 to 3"|
|1,3,5,2,4,6||to swap bells 1 and 3||"1 to 3"||"3 to lead"|
Thus it can be seen how these two ways of calling differ:
- In calling up, the two bells named are already neighbours in the row, with the second-named previously following the first-named. As a result of the call, these two bells swap position; thereafter the first-named bell follows its erstwhile successor (having moved one spot 'upwards' (backward) to a position nearer the end of the change); the second-named has meanwhile moved 'downwards' (forward) to a position nearer the start of the change. In short, the call literally consists of an instruction that the first-named bell move up (i.e. back away from the lead).
- In calling down, by contrast, the first-named bell is instructed to move down (i.e. forwards, towards the lead). The second bell named, the one which the first-named bell is to follow, does not alter its place in the row: it still immediately precedes the swapping pair. The bell which swaps with the one moving down towards lead, on the other hand, is not itself named; its ringer must simply realize that his or her bell must move up to accommodate the first-named bell.
In both cases, the ringer of the bell immediately above (behind) the swapping pair must also be alert, as this bell will be following a new bell after the swap. Rarer forms of call- change calling may: name just one of the moving bells, call the moving bell by position rather than number, or call out the full change.
Method ringing is what many people mean by change ringing. Thanks to it, ringers can spend hours ringing thousands upon thousands of unique changes with no outside direction or coordination. They do not have to memorize impossible quantities of data; nor do they attempt to read it all off a lengthy sheet of numbers. Rather, they are all following a method, a relatively simple pattern they have learned to direct them from row to row.
Since a ringer is responsible for one bell, learning a method consists mainly of memorizing how that bell changes position from row to row; when it advances towards the beginning ("goes down to the front") or when it retreats towards the end ("goes up to the back"). Often ringers study a blueline, a graphical representation of a bell's course from row to row according to a particular method. The methods are simple enough to memorize and so are relatively limited in length; but taken in conjunction with slight standard variations the ringers know to make at regular breaking points, a more robust algorithm is formed. From time to time and usually when the treble is leading (that is when bell number 1 is ringing first), a conductor calls out the need for another variation by calling "bob" or "single".
For some people, the ultimate goal of this system is to ring all the permutations, to ring a tower's bells in every possible order without repeating — what is called an "extent" (or sometimes, formerly, a "full peal"). The feasibility of this depends on how many bells are involved: if a tower has bells, they will have (read factorial) possible permutations, a number that becomes quite large as grows. For example, while six bells have 720 permutations, 8 bells have 40,320; furthermore, 10! = 3,628,800, and 12! = 479,001,600. Estimating two seconds for each change (a reasonable pace), we find that while an extent on 6 bells can be accomplished in half an hour, a full peal on 8 bells should take nearly twenty-two and a half hours. (When in 1963 ringers in Loughborough became the only band in history to achieve this feat on tower bells, it actually took them just under 18 hours.) An extent on 12 bells would take over thirty years.
Since extents are obviously not always practicable, ringers more often undertake shorter performances. Such ringing starts and ends with rounds, having meanwhile visited only a subset of the available permutations; but truth is still considered essential — no row can ever be repeated; to do so would make the ringing false. A peal is an extended performance; it must last at least 5000 changes on eight or more bells and at least 5040 on seven or fewer bells (5040 being 7!, the length of a full extent on seven). A performance of 1250 (on 8 or more) or 1260 (on 7 or fewer) changes likewise makes a quarter peal (quarter for short); a peal or a quarter tends to last about three hours or 45 minutes, respectively.
For commemorative services such as funerals, memorial services and Remembrance Sunday, the bells are rung half-muffled. To ring half-muffled a thick leather pad called a muffle is strapped to one side of each bell's clapper. This deadens the sound of alternate strokes of the bells, the muffled stroke (usually the backstroke) sounding similar to an echo of the unmuffled stroke. In some areas the tenor bell (the lowest note) is left unmuffled to heighten the contrast.
Very rarely, normally only for the death of a Sovereign, are the bells rung fully muffled. One notable exception to this tradition was when nurse Edith Cavell's remains were repatriated after the First World War. As the ship bearing the coffin arrived in Dover, a full peal of Grandsire Triples (5040 Changes, Parker's Twelve-Part) was rung on the bells of the parish church. The peal record shows:
Rung with the bells deeply muffled with the exception of the Tenor which was open at back stroke, in token of respect to Nurse Cavell, whose body arrived at Dover during the ringing and rested in the town till the following morning. The ringers of 1-2-3-4-5-6 are ex-soldiers, F. Elliot having been eight months Prisoner of War in Germany.
History and modern culture of change ringing
Change ringing as we know it today emerged in England in the 17th century. To that era we can trace the origins of the earliest ringing societies, such as the Lincoln Cathedral Guild, which claims to date to 1612 or the Antient [sic] Society of Ringers of St Stephen in Bristol which was founded in 1620 and lasted as a ringing society until the late 19th century. The recreation began to flourish in earnest in the Restoration era; an important milestone in the development of method ringing as a careful science was the 1668 publication by Richard Duckworth and Fabian Stedman of their book Tintinnalogia, which promised in its subtitle to lay down "plain and easie Rules for Ringing all sorts of Plain Changes." Stedman followed this in 1677 with another famous early guide, Campanalogia.
Throughout the years since, the group theoretical underpinnings of change ringing have been pursued by mathematicians. Bells have been installed in towers around the world and many rings in the British Isles have been augmented to ten, twelve, fourteen, or even sixteen bells. Today change ringing is, particularly in England, a popular and commonplace sound, often issuing from a church tower before or after a service or wedding. While on these everyday occasions the ringers must usually content themselves with shorter "touches," each lasting a few minutes, for special occasions they often attempt a quarter-peal or peal, lasting approximately 45 minutes or three hours respectively. If a peal attempt succeeds, towers sometimes mark the occasion with a peal board mounted on the wall of the ringing chamber; at St Peter Mancroft in Norwich there is one documenting what is generally considered to be the first true peal: 5040 changes of Plain Bob Triples (a method still popular today), rung 2 May 1715. Today over 4000 peals are rung each year.
Organisation and extent
The Central Council of Church Bell Ringers, founded in 1891, is dedicated to representing change ringers around the world. Most regional and local ringing guilds are affiliated with the council. Its journal, The Ringing World, has been published weekly since 1911; in addition to news and features relating to bellringing and the bellringing community, it publishes records of achievements such as peals and quarter-peals. Ringers generally adhere to the Council's rules and definitions governing change ringing.
The Central Council, by means of its peal records, also keeps track of record length peals, both on tower bells and handbells. (The record for tower bells remains the 1963 Loughborough extent of Plain Bob Major (40,320 changes); for handbells it was set in 2007 in Willingham, Cambridgeshire, with 72,000 changes of 100 different Treble Dodging Minor methods, taking just over 24 hours to ring) More importantly, perhaps, along with keeping track of the first peal ever rung in a method, the Central Council controls the naming of new methods: it generally allows the first band to ring a method to name it.
Much ringing is carried out by bands of ringers meeting at their local tower to ring its bells. For the sake of variety, though, many ringers like to take occasional trips to make a tower grab ringing the bells of a less familiar tower. The setting, the church architecture, the chance to ring more bells than usual, the bells' unique tone, their ease or difficulty of ringing, and sometimes even the unusual means of accessing the ringing chamber can all be part of the attraction. The traditional means of finding bell towers, and still the most popular way today, is the book (and now internet database) Dove's Guide for Church Bell Ringers.
As of April 2007[update], that guide lists 5750 ringable rings of bells in England, 181 in Wales, 35 in Ireland, 20 in Scotland, 10 in the Channel Islands, 2 in the Isle of Man and a further 123 towers worldwide with bells hung for full circle ringing. Australia has 45 rings of bells. Others are located in the USA, Canada, New Zealand, South Africa, Italy, Kenya, India, Bangladesh, Pakistan and Spain.
Number of bells
Methods of change ringing are named for the number of working bells, or those which switch order within the change. It takes a pair to switch, and commonly the largest bell (the tenor) does not change place. For example, there may be six bells, only five of which are working, allowing for only two pairs. A method of ringing for these bells would be called doubles. Doubles is the most common group of methods rung in the United Kingdom, since 90% of parish churches with bell towers in the UK are fitted with only six bells.
"Plain Bob Doubles" is a method rung on five bells whereas "Plain Bob Triples" is the same method rung on seven working bells.
There are two separate ways are used to refer to the number of bells. One way is used for even numbers, the other for an odd number.
|Even numbers of bells|
|Number of bells||Name|
|Odd numbers of bells|
|Number of bells||Name|
The name for 9 bells is pronounced "kate-ers" and comes from the French "quatres". The name for 11 bells also comes from the French and is pronounced "sinks" c.f. Cinque Ports.
The names refer to the number of bells which change places in each row. With three bells only one pair can change, and so it is singles. With seven bells there are clearly three pairs with the one left over not moving this row.
Mathematical abstraction though each row may be, some rows do have a musical or melodic meaning to the listener. Over the years, a number of these have acquired names — they are named changes. Both the conductors directing call-change ringing and the composers coming up with plans for a bout of method ringing sometimes like to work their favourite named changes in. The table below lists some popular named changes on eight bells; many of these names are also applicable by extension on more or fewer bells.
Change Name 12345678 ( listen (help·info)) Rounds 87654321 ( listen (help·info)) Back rounds or Reverse Rounds 13572468 ( listen (help·info)) Queens (an apocryphal story says it appealed to Elizabeth I) 15263748 ( listen (help·info)) Tittums (so named because of the ti-tum ti-tum sound it makes)
You can find a full list of Called changes at MAW Call Change Collection
Although neither call change nor method ringing produces conventional tunes, it is still the aim of the ringers to produce a pleasant sound. One of the most important aspects of this is good striking — not only should the bells never clash by sounding at the same moment, the bells should sound to a perfect rhythm, tapping out a steady beat.
It is the custom to leave a pause of one beat after every alternate row, i.e. after the ringing of each ‘backstroke’ row. This is called 'open handstroke' ringing (or open handstroke leading). In Devon, Cornwall and parts of Yorkshire, this custom is not followed when call-change ringing; instead the bells strike steadily without the pause. This latter custom is known as the closed-hand or cartwheel arrangement. However, method ringing in the South West of England employs the open-handstroke as is the universal convention.
Striking competitions are held where various bands of ringers attempt to ring with their best striking. They are judged on their number of faults (striking errors); the band with the least number of faults wins. These competitions are organized on regional and national levels, being particularly popular among the call-change ringers of Devon where it is customary for the quality of the rise and lower of the bells to be included as part of the judged performance. Competitions for method ringers usually start "off the stay" — i.e. the bells are rung up before the competition begins. At the annual National 12 Bell Striking Contest the bands are ringing methods and producing a different change approximately every 2.5 seconds, with a gap between bells of 0.21 seconds. To an expert ringer's ear at this level of competition a variation of a tenth of this would be discernible as a striking fault.
Splicing bell ropes
Change ringing in literature and television
The mystery novel The Nine Tailors by Dorothy L. Sayers (1934) contains a great deal of information on change-ringing. Her fictional detective, Lord Peter Wimsey, demonstrates his skill at ringing, and the solution to the central puzzle of the book rests in part upon his knowledge of the patterns of change ringing.
Connie Willis, who frequently and overtly references Sayers in To Say Nothing of the Dog (1997), features bell ringers in her earlier novel Doomsday Book (1992); a group of American women led by a Mrs. Taylor frequently appears practising for or ringing both handbells and changes.
- Bryant, David. "The History and Use of Semitone Bells". Retrieved 11 June 2014.
- Dove entry for Worcester Cathedral, a twelve bell tower with 3 semi-tone bells. Search on Dove's Guide for towers with 13 or more bells, note that Christ Church Cathedral, Dublin is listed as having 16 bells, with additional sharp 6, 9 and 13; Swan Bells, Perth, Western Australia, is again a 16 but with additional flat 3 and 10. Retrieved 28 May 2008.
- "history". Whitechapel Bell Foundry. Retrieved 23 June 2009.
- "Liverpool:Cathedral Church of Christ". Dove's Guide for Church Bell Ringers. Central Council for Church Bell Ringers. Retrieved 2 May 2015.
- Online peal board, from the Central Council records committee[dead link]
- "Commemorative Ringing". The Central Council of Church Bell Ringers official website. The Central Council of Church Bell Ringers. 13 March 2004. Retrieved 31 May 2011.
- Peal record Retrieved 21 October 2014
- "Company of Ringers". Lincoln Cathedral website. 2006. Retrieved 18 April 2007. [dead link]
- "THE ANTIENT SOCIETY OF RINGERS". Website of St Stephen's, the parish church for the City of Bristol, England. Archived from the original on 3 July 2007. Retrieved 18 April 2007.
- "Changes" can be viewed as permutations; sets of
permutations constitute mathematical groups,
which in turn can be depicted via so-called Cayley
graphs, which in turn can be mapped onto polyhedra.
- Introduction to change ringing and group theory : Mathematics and Music: Change Ringing.
- Introduction to change ringing and both group theory and graph theory (with references) : "The Mathematics of Change Ringing".
- Change ringing as directed graphs on polyhedra : Bell-ringing methods as polyhedra.
- Change ringing graphs on polyhedra that can rotated via cursor : Minimus Polyhedra.
- Ian Stewart, Another Fine Math You've Got Me Into (New York, New York : W.H. Freeman, 1992), Chapter 13 (pages 199-219).
- F.J. Budden, The Fascination of Groups, (Cambridge, England: Cambridge University Press, 1972), Chapter 24: "Ringing the changes: groups and campanology," pages 451-479.
- Arthur White and Robin Wilson (March 1995) "The hunting group," The Mathematical Gazette, vol. 79, no. 484, pages 5-16.
- Arthur T. White (1987) "Ringing the cosets," American Mathematical Monthly, vol. 94 , pages 721-746.
- Bells and Bellringing, from the CCCBR. There is some evidence there may have been an earlier peal (also Plain Bob Triples), rung January 7, 1690 at St Sepulchre-without-Newgate in the City of London by the Ancient Society of College Youths; see Landmarks in the History of the Society, from the ASCY.
- The Ringing World
- "72000 Treble Dodging Minor (100m)". peals.co.uk. The Ringing World.
- Dove, Ron; Baldwin, Sid (29 April 2007). "Dove's Guide for Church bell Ringers". Central Council of Church Bell Ringers website. Central Council of Church Bell Ringers. Retrieved 30 April 2007.
- All Saints' Bells
- Some sources (e.g. ) define back rounds slightly differently, as 76543218.
- This is particularly effective at the end of ringing down. The bells are in order and so if not chimed leave a pause, the sequence becomes: 1..4..23.5 where a dot indicates a pause.
- Beech, Frank (2005). Splicing Bell Ropes Illustrated (first ed.). Central Council of Church Bell Ringers. pp. 1–32. ISBN 0-900271-82-5.