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Evaluation & Appraisal of Contemporary Timber
Construction for a Kindergarten.
Student Fahimeh Rezvani
Matriculation Number 10019743
Module leader John B. Wood, University of Edinburgh
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Content
Introduction
kindergartens
Educational Pedagogies
Metaphors for play: innovation and risk
Kindergartens Building Typologies
Classroom
Classroom Typologies
Room Regions and Zones
Indoor air quality
Humidity
Moisture mass
Materials and health
Benefits of timber
Ventilation
Airtightness
Daylighting
Sustainability
Landscape
Modern Method of Construction
Conclusion
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kindergartens
Architecture for the education of young children aged 5 or 6 to 11 years has been a distinct
building type for over a century.
The way children interact with architecture is important to their development, relative to
their sense of well-being and their intellect. If they have experienced well-designed,
evocative space, it could be labelled investigative, as it supports the children as they learn
about their world. Carlina Rinaldi of Reggio Emilia has noted, Children are asking why?
before they can say why?
From the educators side, there is a desire for creative thought and analysis, from the
students side, a desire for recognition of autonomy and competency.
Children look to one another for peer evaluation of their experience or currentworld events. Children listen to the meaning of life in all its colours;
...they understand that differences have power...(and) that uncertainty is not insecurity.
The classs diversity, racial, economic, geographic, allows these citizens of the world to begin
to also work with one another, to read one another as they will read clients in the future
most children will typically spend more of their waking hours in a care or education program
rather than their own home; these spaces must be part of the strength of the program and
hopefully, be part of the strength of the child.
As well, children want to impact and change their space, as they begin to form their spatial
awareness large, small, open, lower, many types of experience should be available to
them. Moveable elements, large blocks and fabric allow them the capacity to reformulate
the given architecture, and the transparency into other spaces gives them multiple readings
of the same spaces.
Childrens participation in the design process is a valuable way to teach them about the
multitude of problems and opportunities that must be addressed in the creation of school
environments.As players in the design process, children will be able to more readily
connect their own actions and decisions with environmental change, a key to sustainability.
Relative to scale, we break into groups of 3 and measure each others height, arm span,
reaching height etc, and then measure an area in studio and their dorm rooms in order to
place themselves in a part of their universe and as a way of understanding our bodies as
relational forms in space. Their understanding of these concepts relates to Piagets ideas
and investigations into movement and space.
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Educational Pedagogies
Firstly, there are new buildings where design
priorities focus upon a strictly codified room
schedule. This alone will dictate the architectural
approach. Here is a case in point: There is a soft
corner with a comfortable adult sized sofa, a large
rug and some cushions and a child sized bookcase,
and an additional accessible storage shelf. Each
group room has its own bathroom and a side room
exclusively used for naps and sleeping, and
equipped with small mattresses."
Because the schedule is expressed primarily as a series of quasi-functional zones under
pinned by a predetermined floor area relating to child numbers, the architectural narrative
tends to be two-dimensional and very limited. There is an emphasis on a prescriptive
approach where rules and regulations guide the architectural strategy. Everything is very
much pre-determined by the zones or territories which are strictly imposed upon children.
The main determinant of the architecture are age-related groupings such as 0-1 year olds, 1-
2 year olds, 2-3 years olds etc. Although they are usually described as 'homebase' areas
many are similar in character to school classrooms. Each homebase area may be further
designated into functional zones such as the cloakroom, the wet zone (with sinks for art and
craft activities) and the quiet zone.
This is a range of activities which is so tightly prescribed that the architecture tends to
reduce and limit the scope for learning rather than extending and opening it up. The focus is
on adult needs, such as safety and security, rather than on child needs, such as the
promotion of exploration and discovery.Clearly this approach can obscure the potential for creativity and imagination. The free spirit
of young children is somehow narrowed down to a set of activities which are deemed to
have educational value. Ultimately, the quality of the architecture is very much down to the
skills of the architect selected, and his or her ability to interpret the brief in a truly child
orientated way. There are a highly dysfunctional relationship between pedagogy and space,
yet it is the basis of much contemporary practice.
second Pedagogies I discussed carried out in the UK by
Edward Francis Oneill who are head teacher in PrestoleeSchool in Lancashire, northwest England, which was
Figure 1 Typical Robson school plan,
Hackney, East London, 1911 Source: Mark
Dudek
Figure 2 The windmill, built by senior
pupils, at Prestolee School, Kearsley,
Lancashire, 1946. Source :Mark Dudek
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transformed between the years 1918 and 1953. He pioneered an active learning approach
which flew in the face of convention with its emphasis on structured discipline dictating
school design formulaically as, for example, a number of classrooms grouped around an
assembly hall with an outside playground.
O'Neill objected to the concept that the child's day must be divided up between work and
play and neatly segmented across the week into hour long subject lessons delivered by a
specialist teacher with the aid of a blackboard.
O'Neill fashioned the school interior and exterior as a single seamless environment, which
was a deliberate response to what he considered to be the artificial and damaging division
between 'work' (indoors) and 'play' (outdoors).
Friedrich Froebel (1782-1852), the important early
years educator, had initially worked in the field of
crystal ographic science. In the first German edition of
The Education of Man (1826), he makes theobservation that whether organic or inorganic,
crystalline or non-crystalline, developmental processes
seemed to be the same; in essence they tend to
develop outward from within, striving to maintain
balance between inner and outer forces. 4
Froebel's system were the building blocks or building
boxes.' Each set became progressively more complex
as the child's understanding developed. Although they
contained different shapes, rectangular, square and triangular spheres, they were all based
on the same modular system.
Avery Coonley Playhouse (1912), a kindergarten in the suburbs of Chicago for a private
client, is formed by pure horizontal and vertical plains of materiality which can be precisely
constructed in miniature.
The municipal infant-toddler centres and pre schools of
Reggio Emilia in Northern Italy. The system has evolved over
the past 40 years, largely as a result of the inspirational
childcare specialist and visionary, Loris Malaguzzi and his early
work on how children learn. 'Reggio,' as it is known, is widely
recognised as the best system in the world, where an
advanced pedagogy connects with some of the most pleasing
early years buildings anywhere. Reggio recognises that spacesfor children are a fundamental part of the complex
Figure 3 Froebel blocks Source: Mark
Dudek
Figure 4 The piazza of Reggio
Emilia preschool in Northern
Italy.Nursery and Preschool San
Felice, ZPZ Partners, 2000
Source: Mark Dudek
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development support system which enables young children to gain knowledge.
The system is one which speaks about the exciting process of cognitive and cultural
development for young children. 'Reflections on the tools of design, with indications on
spatial distribution and on the 'soft qualities': light, colour, materials, sound, smell and
microclimate.
For example 'recognisability' means creating an architectural language and an
environmental atmosphere which has a precise identity. It speaks of non-hierarchical space,
where every area of the childcare building is potentially open to children and adults alike
because there should be a democracy of function; every space is a potential area for
learning and development.
The spaces must contribute to the well being, creativity, and sense of play of the children.
They must promote connection to the outside world, irrespective of what the immediate
surroundings are. From Piaget through Gardner, it is understood that children react in a
visceral, immediate way with their surroundings; concurrently, the environment is
important for quality early childhood experiences for children.Beyond that, the schools allow the students to move about freely during the day, delving
into whatever project interested them. The spaces are concerned conceptually with many
architectural basics - light, color, texture, form - but use them in innovative ways.
In writing about the RE schools, pedagogista Tiziana Fillipini points out that the educators
think of space as a container which favours social interaction, exploration and learning, but
also that they see the space as having educational content.
Childrens multiple symbolic languages
A very early and basic premise of the RE approach was to recognize and encourage thechildren in their use of their one hundred languages to support their investigations.
Children have amazing insights daily; at RE these are recognized and allowed to inform the
process of their learning.
Quite often, the use of visual media to investigate allows pre-verbal communication.
According to Vygotsky, both receptive and expressive language have their origins in the
social and cultural experiences of children.
Long term projects/ progettazione
Activities stem from the interests and the ideas of the children. They have an active role in
the planning of the curriculum, and their personal input is shown in their creative art
experiences. The result is that children express themselves artistically in a much more
mature way than most children their age (Katz, 1990). RE teachers use the term
progettazione, which means to plan, design, project, (rather than the norm programazione,
to program) .
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Metaphors for play: innovation and risk
create situations which afforded children a sense of adventure where they could test their
mental and physical coordination with a strong illusion of their own independence.
played out in different corners and areas of their daycare landscape. there was no
perceptual difference between an exterior landscape and an interior landscape. Indeed,
children would relate to both in similar ways if allowed.(Mark Dudek)
childrens needs dictated the form of that labyrinthine, multi dimensional environment to
create a really child-centred design.
children and adults and the community have been cheated and the educational-cultural
system makes sure that they hold the belief that this is right. (How NOT to Cheat Children TheTheory ofLoose Parts. SimonNicholson (1971).
The best form of architecture for education is the result of an informed dialogue between
teachers and children, where children feel that they can have an active involvement in the
decisions which shape their lives. The architecture is the third dimension, which creates the
whole.
Each one of our contributors has been asked to consider the evolving nature of childrens
culture and the environments within which it is currently being played out.
Consider the needs of children in a new light. Arguably, the childrens environment must be
conceived of as a world within a world; it should be a special place with all the aspects that
make the environment a rich landscape for exploration and play. And this ideal should apply
well beyond the nursery.
In the childcare centre he designed in Souest, architect Ton Venhoeven had deliberately
incorporated ramps, terraces and level changes which encouraged children to climb and
explore, just as they would in a natural landscape;
what child psychologist Harry Heft called affordances, the possibility for children to test
and develop their physical and social skills through the specific architectural featureson offer.
The interior and the exterior
Most children do not really differentiate between the interior and the exterior of a building.
The best landscapes enhance development for all children. The best form of learning takes
place within an integrated environment of architecture, technology and teaching, which
comes together seamlessly. If it engages the child, it will enhance their learning and their
social development in equal measure. The landscapes of childhood are everywhere,
however, today they are no longer freely available to children. As a result the real needs of
children for freedom and adventure in their own worlds are censored. We must somehow
give this back to them.(Mark Dudek, June 2004)
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Listening to young children holds particular challenges for the architectural community,
Reflect on young childrens experience of place and architecture and enhance their
understanding of exactly who children are, in relation to the worlds they inhabit. school as a
place which plays an active role in the childrens search for meaning and our own search for
meaning, shared meanings.
Inventors vs translatorsThe children immediately projected their own imaginative interpretation onto the setting,
taking temporary ownership, giving it many new uses.
Designers are the translators.
Designers translate an imaginative idea into a tangible
form, with colours and materiality that can be freely
enjoyed by the child.
Being a designer is in itself a learning process. It thereforemirrors the childrens pattern of play. Often by simply
watching children at play an idea forms in the designers
imagination.
The application of transformation
Three principles that is significant during the design is agility, flexibility and proprioception.
Agility is the ability to recognize and respond to new and changing situations as they when
children have to reach and stretch beyond their known capabilities, they develop andimprove their skills.
These three transforming principles agility, flexibility, and proprioception can be built
into any space for children so that development of these essential skills just happens as
children naturally do what they do. Three of the principles that allow children to transform a
play item to suit their needs are Multi-functional activities colour variation, and moving
parts. includes a variety of materials and types of assembly.
Diversity of form, material, and spatial arrangement is provided and the use is not limited
Or proscribed. Colour variation is the intentional inclusion of different colours, by making
the disks several different colours. Many additional play opportunities become possible. The
colour variation affects the pattern of use in a way that encourages decision and rule
codification to establish a free or safe zone.
From the educationists world, an approach to learning is indeed a hybrid stemming from
two learning theories, one focused on culture and the other on ecology. This hybrid hasrecently been articulated as Critical Pedagogy of Place.
Figure 5 An old belt crooked treea
wonderful tree, in Gell Park,
Barcelona. (Photos: Michael Laris.)
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A multitude of factors
One of the most important practical criteria is that the product must be safe.
Preventing hazardous situations is mandatory in relation to the design of playground
equipment about preventing hazards, not about preventing risk, where the risk level isappropriate to their skill level. test themselves, to learn about risk and the limitations. A
second essential factor when designing playground equipment is accessibility. And
functioning of the equipment is particularly important, yet the equipment must also be
challenging to the user.
Freedom and creativity
The key element in this physical environment design is the ability of the children and
teachers to create their own learning environments rather than having everything
predetermined for them.
Design concept and origins
the work of the design profession can be divided into three major groups, ranging from
innovation, to evolution, to formation. Innovation implies an entirely new symbiosis of form
and function, Evolution describes advances made to a known function.
The design concept is a synthesis of the Design Down parameters, the site, the landscape
and the historic precedents.
Space
Fifty per cent of the space is to be useful space and the otherfifty per cent is to be useless
space. The useful spaces are supported with an intense infrastructure underneath (hot and
cold water, waste systems, compressed air, exhaust, gas, multiple power levels, hardwire
and wireless networking, etc.). Furnishings are movable and designed for interactive use.
The useless spaces have only minimal support infrastructure (power and networking).
Furnishings are available for various forms of social interaction.
Kindergartens Building Typologies
Primary and secondary schools have constituted an architectural typology since the 19th
century;
oppositely, kindergartens were not considered as such till the eighties decade, when the demand of
nursery school increased as well as the knowledge about its pedagogical needs by architects .
(Dudek, A Design Manual. Schools and Kindergartens., 2007)
The main plan kindergarten typologies are deep-plan form with a main corridor and rooms in both
sides placing the hall generally in the centre, and the linear one where rooms are set just by one side
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of the corridor with the entrance hall in one of the furthest side of the corridor. And also there are
U-Shape or organics plan types.
There are another interesting classification by the architectural movement which establish by Mark
Dudek that classified in four different typologies; metaphor, organic, late modernism and The
modular nursery relating each movement characteristics with different pedagogical needs.
Metaphor
Metaphor is a comparison between two or more
seemingly unrelated subjects, but adding to one the
others features. In architecture, art which has its own
language and grammatical structure to transmit ideas,
metaphor has become a great tool through the 20th
century to criticize the Modern era, and later, in the
postmodern architecture, has ended in structuralism,
movement that understand architectures like an sum of
elements and each element has its own reason
(Wonoseputro, 2006).
An example of this type is Sossenheim kita in Frankfurt,
designed by Christoph Mackler. He devises the building as
a small city for children, but there are no children
features. Each classroom is one volume, and are placed asterrace houses joining their long side and being connected
by the main corridor. In this way, gables are observed by
pupils and understood like small houses. In addition, rooms
have been internally performed with different dimensions,
high and light in order to stimulate children perception
(Dudek, Kindergarten Architecture: Space for the
imagination., 1996).
And Also the no-builded Childrens Centre which designed
by Chistoph Langhof in Berlin inspired by an island. Thebuilding has been perform by planes, due to the Steiner
theory which set that buildings designed by basic
geometries like planes or lines, help student to develop
their perception sense. Classrooms are opened to the
playground which is defined by an irregular and soft wall that contrasts with building orthogonality
(Dudek, Kindergarten Architecture: Space for the imagination., 1996).
Organic
Figure 6 Axonometric drawing of Christoph Macklers
Sossenheim Kita. 1989. source: Mark Dudek
Figure 7 Plan of Christoph Langhofs project for a
childrens centre in Berlin, with the entrance at the
base of the drawing, Unbuild. source: Mark Dudek
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Louis Sullivan interpreted this definition as form always follows function; on the other hand, Frank
Lloyd Right set that the organic character was given by the relationship between the building and its
environment getting this relation by its shape, materials and textures and continuity between
exterior-interior. Nowadays organic architecture approaches among many other concepts ecological
or healthy buildings as well as the development of perception sense by the occupant, considering
the buildings like an organism rather than a machine (Organic Architecture) .
The organic movement is opposite to the metaphor one, and judges it as a tendency that tries to
avoid the real world by its metaphor. An example of this case of study is Nant-y-cwm Stainers
kindergarten designed by Chistopher Day, which
considers the environment influence in childrens
behaviour. The construction was erected in a forest
glade, and natural elements, like water, sand or clay,
were incorporated in the play ground to stimulate
children development. Rooms were distinguishedusing different materials and textures, and its corners
were rounded forming small spaces to specific tasks
(Dudek, Kindergarten Architecture: Space for the
imagination., 1996).
Late modernism
Peter Wilson explains his approach as being
about the frame and adjacency: Where the
frame is the form of the building, which is
neutral, without narrative content, a sort of
abstract volume the adjacency is a second order
of event, a specific and localized event. Thus the
playful, child-related details are placed with the
overall frame, independent of each other,
creating specific localities within the building.
Architecturally, the spirit of the building pays
great homage to the Modern Movement which is
coherent and largely functional, therefore a serious architecture. Yet it also has a series of
amusing or ironic architectural details (the events), which appeal to children and lighten
the earnest pretensions of much modern architecture.
First example of late modernism is the UCLA campus work-place nursery designed by Charles and
Elisabeth Lees, It is deal with Mies Van der Rohe. The kindergarten is conceived like a neutral
container for children activities with a U shape plan that surround the playground. The interior
facades, performed with translucent panels fade limits between interior and exterior (Dudek,
Kindergarten Architecture: Space for the imagination., 1996).
Figure 8 Fredrick Kiesler, The Endless House;, 1959.
source: Mark Dudek
Figure 9 Christopher Day, Nant-y-Cwm Steiner Nursery,
1990, source: Mark Dudek
Figure 8 Ground floor plan of the Honjo Kindergarten
by Team Zoo. The plan shows enclosed and open-plan
spaces with level changes and wall niches to creat a rich
and diverse environment. source: Mark Dudek
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Another case is Greisheim-Sud kita designed by Bolles Wilson Architects in Frankfurt. In this
building, the frame is the shape of the building and shows a clear white and spacious interior being a
neutral building. In this case, children are referenced by features clearly added on the walls which
tray to attract their attention. The plan scheme is clearly functionalist; the building backs the road
and place big and spacious classes opened to the garden (Dudek, Kindergarten Architecture: Space
for the imagination., 1996).
The modular nursery
The task and responsibility of the new man will be to build in
sufficient quantity and therefore at an industrial rate, schools
first, but not just school building but schools for real children,and children who later will travel to the moon; universities
different from those under construction at present; houses by
the million with their ancillary extensions. (27.Vesley, D, et al .
(1978), Surrealism, Myth and Modernity, Architectural Design,
Surrealism, vol, 48, nos. 2-3, p.94)
During the 1950s, Jean Prouve designed pre-fabricated building
elements and structures in France in order to satisfy the need
for a rapidly expanding school roll. Prouve stated that by incorporating advanced methods of pre-
fabricated construction, it would be possible to radically transform the school environment to create
more appropriate places in which children learn. Spurred on by the need for large-scale production
during the immediate post-war years, he established a factory at Maxeville and developed pre-
fabricated system which radically transformed the spatial quality of what had previously been
viewed as low-quality building.
His thesis was that a school should display the architecture of the epoch rather than some sort of
regressive historical form. the new design were highly engineered construction using state-of-the-
art methods of fabrication.
Many UK local education authorities will still refuse the commission pre-fabricated buildings becauseof the sigma attached to the temporary concept. And one of the key concerns during its
development was the image and appearance of the box; rather than attempting to disguise the P
Portakabin with a pitched roof or other devices to make it appear like a more conventional nursery
building, the design team took the view that Portakabin box image should, if anything, be enhanced.
The format of the initial prototype comprises four zones: the wet/ toilet area, the entrance/ play
area, the quite room and a covered play deck accessible directly from the activity area. Storage walls
are provided, one with the play/ activity area and another externally on the covered play deck. Low
windows are fitted which are designed to be safe yet child friendly.
Figure 11 Forest kindergarten
Source: www.forestry.gov.uk
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As with the Portakabin project, the modular principle imposes limitations in terms of the
architectural aesthetic. Whereas Portakabin presents a design that is clearly and proudly pre-
fabricated, the architecture of the community nursery is a little more circumspect. A range of
cladding options and alternative roof profiles are offered which allow for a certain amount of
customization to each site context.
One of the earliest examples of this new generation of modular nurseries was the Forest
Kindergarten. Its lightweight transportable structure means it can be sited in different rural locations
to support this rich element of the curriculum.
Class Roomthe classrooms were places children had to be inspired by to have fun in; places of wonder
and surprise, somewhere for children to explore, both formally and informally. Formally, the
classrooms became teaching tools and every time we specified a material or a particular
technology we thought whether it would be interesting for the children.
Open structure rooms let children choose from a variety of activity stations.
Many factors contribute to a truly great room layout that encourages children to learn
through play. Child care professional Anita Olds lists five attributes to consider for each
activity station you plan.
four main types of classroom organization which takes place in primary schools: whole class,
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individual, paired and group working.
key groupings can be summarized as follows:
1 Pupils taught directly by their teachers;
2 As individuals;
3 In small groups;
4 As a whole class;
5 Or, when not with their teacher, alone or in collaboration.
Space in classrooms is often limited and must be utilized with great skill to enable the
activities, which form essential components of the primary school curriculum, to take place
effectively.(Barker (1978) and Bronfenbrenner (1979).
When children experience a school obviously designed with their needs in mind, they notice
it and demonstrate a more natural disposition towards respectful behaviour and a
willingness to contribute to the classroom community.( Clegg, D. and Billington, S. (1994). TheEffective Primary Classroom: Management and Organisation of Teaching and Learning. London: David Fulton.)
There are three criteria that must be considered when organizing resources: (Pollard, A. (1997).Reflective Teaching in the Primary School: A Handbook of the Classroom (3rd ed.): London: Cassell Education.)
1 Appropriateness. What resources are neede to support the learning processes2 Availability. What resources are available? What is in the classroom, the school, the
community, businesses, libraries, museums, local resource centres? Are there cost, time or
transport factors to be considered?
3 Storage. How are classroom resources stored? Which should be under teacher control?
Which should be openly available to the children? Are resources clearly labelled and
safely stored. Clearly, an effective classroom needs to be designed ergonomically so that
storage is designed into the architecture in an appropriate, safe and accessible form. Close
discussion with teachers will enable this to happen.
Classroom Typologies
Victorian building was nicknamed the
shoebox. It illustrates even more limitations of
space with severe restrictions on the scope for
flexibility.Figure 12 Shoebox layout. (Source:Galton et al. (1999).30 )
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Another example of a classroom type illustrated by Galton is the L-shaped classroom. In this
example the smaller part of the L was deemed to be unsuitable for teaching and was
therefore used only as storage area. So the
remaining teaching area was rectangular and of
reduced size, and the presence of fixed storage
cupboards down the longer side of the room
further reduced the available space for teaching.
This resulted in an awkwardly shaped teaching
area to accommodate twenty-eight Year 6 pupils.
A similar L-shaped configuration was discussed
by James Dyck in more positive terms. Describing
it as the Fat L he illustrates a much wider
variety of layouts than the traditional rectangular
form
allows, however, it also implies that the overallarea requires significantly more space in order for
it to work effectively.( McNamara, D. and Waugh, D.(1993).Classroom Organisation: A Discussion of grouping
Strategies in the light of the 3 Wise Mens Report, School
Organisation, 13, 1, 4450.)
This U-shaped furniture arrangement is claimed to
be the most effective for allowing the three main
working styles individual, group and whole class,
with a minimum of modification.( Bennett, N., Andreae, J.,Hegarty, P. And Wade, B. (1980). Open plan schools: teaching,
curriculum, design. Windsor: NFER Publishing for the Schools
Council.)
The U-shaped or horseshoe arrangement can be an extremely effective way of making the
most of any rigid enclosed classroom environment.
As Galton et al. (1999) state: the horseshoe and shoebox layouts demonstrates the
need for a high degree of flexibility in terms of his or her teaching techniques on the part of
the teachers in question. They represent a considered and deliberate response to a difficult
situation, overcoming the constraints on an environmentally inadequate or overly confined
classroom environment.
An earlier study assessed the use made of available spaces by both teachers and pupils in
open-plan classrooms.( Bennett, et al. pp. 168170. (See note 33.))
The next types of space described are practical areas defined as:
those areas which have sinks and floor finishes that are suitable for wet activities such as
quarry tiles and vinyl tiles, and are situated within the teaching unit.( les: the effects of seatingarrangements on task engagement in primary classrooms. Educational Research, 37, 279291.)
Figure 13 L-shaped layout. (Source: Galton
et al. (1990).30 )
Figure 14 Horseshoe layout. (Source:
Galton et al. (1999).30 )
Figure 15 Typical open-plan classroom showing
quiet rooms.
(Source: Bennett et al. (1980).33 )
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Room Regions and Zones
The most successful child care rooms are divided into two regions, wet and dry.
Wet Region
1.The Entry Zone (Wet Region)
2. The Messy Zone (Wet Region) can contain tables, chairs, easels, woodworking benches,
sand and water centers,
Dry Region3. The Active Zone (Dry Region) supports large motor play, wheeled vehicles, music and
movement, climbing and dramatic play.
4. The Quiet Zone (Dry Region) contains blocks, manipulatives,
5. The Outdoor Zone. The playground is the most important zone.
Boundaries
children want to save their projects so they can continue them the next day. Edgington
(1998) reports that if children are allowed to follow an interest over a period of time,
motivation and concentration improve.
Many concepts interplay to create Boundaries:
Paths
Movement
Freedom to Explore
Privacy
Paths
When [pathways are] well designed, entries, exits, and movement between space are
physically and emotionally smooth, even during emergencies. (Jim Greenman)
When paths are well defined, children move quickly and easily from one activity to another.Jim Greenman (1988) observes that different paths encourage different types of behaviour.
Figure 16 Typical open-plan classroom showing
location of practical areas. (Source: Bennett etal. (1980).33 )
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Movement
Movement is considered to be the bedrock of all intellectual development often it is
merely limited opportunities for movement that create many so-called behavioural and
learning difficulties.(Anita Olds)Children need scope for movement. Caregivers can direct movement so that it is safe and
doesnt disrupt other activities.
Freedom to Explore
Richness of experience, not tidy perfection, is the point of the whole thing. (Katherine
Whitehorn). Children need to explore using all their senses. It is important to allow children
to move freely between activity centers to explore and experiment, mix and match.
If you want to do something good for a childgive him an environment where he can touch
things as much as he wants. (Buckminster Fuller)
Privacy
In an ideal setting, the children have access to rooms where they can withdraw from the
main group if they wish, to play without interruption, to relax and daydream. ( Mark Dudek)
It is wonderful to have a few simple units where a child can play alone.Cubbies and
comfortable corners are a childs favorite.
Activity
happens behind and around the chairs, making security and quiet waiting an impossibility.
Storage
When it comes to storage, there never seems to be enough. As one of the five most
important attributes of activity areas, storage must be considered early in the room layout
process. According to Jim Greenmans (1988) helpful list, good storage is:
located close to the point of use. able to comfortably hold and distinctively display contents
when open. the right size and shape for the space. aesthetically pleasing. clear and
understandable to its user, whether 20 months or 20 years old. safe.
Flexibility
The ideal room is an empty shell filled with movable furniture.
Inviting play .Good design can clearly create a sense of welcome. In general, curves are
perceived as warm and feminine, while straight lines are hard and masculine. Obtuse angles
are inviting and acute angles are rejecting. To be really welcoming, the reception area
should be concave in shape.
Well designed spaces should reflect the style, cultural values and architectural heritage of
the surrounding community. Each classroom should also reflect the personality of both the
children and adults who work there. (Vicki Stoecklin)
Some parents will want to drop off their children and go, but a well designed space will
encourage them to stay and interact, creating a bridge between home and the big
impersonal world. It says: we understand children; you can be a child here.
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To make an area welcoming it should include:
opportunities for play.
creative use of light, both
natural and artificial.
curves vs. straight lines.
obtuse vs. acute angles.
concave vs. convex shape.
opportunities to explore.
counters and interest areas
at child height.
opportunities to work
on the floor.
Stimulation
The smaller points of color are mainly primary colors. Blue, green, and brown are calm
colors, while red and yellow are exciting. Light and reflection help bring this level of interestindoors. For opportunities for interplay between light and shadow, like a rattan screen
hanging in a window and blowing in the breeze. Mirrors, too, stimulate beautiful play.
A transition area helps alert the children that they are entering a new space with different
limits and possibilities.
Playing Area
Kritchevsky (1977) suggests that playing area can be categorized into four types:
A Potential Unit is a clearly defined space with no play materials,A Simple Play Unit has only one obvious use,
A Complex Play Unit has sub-parts or several materials that allow you to improvise.
A Super Play Unit has three or more play materials,
Table 1 olaying area source: www.communityplaythings.com
Guide to Space Planning
The fixed features of a building can constrain its interior
design. Where possible, the fixed features should be kept
to a minimum to allow for greater flexibility. For example,
try to keep to the minimum of two doors per room and
avoid built-in partitions and shelving.
Figure 17 First step source:www.communityplaythings.com
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1. Make an overall room plan.
Draw the basic shape of the room, to scale, on graph
paper. Mark in all the fixed features: windows, doors,
sinks, and floor surfacing.
2. Mark in the flow.
Paths must have direct access to all areas and doors. Main
flow goes from the entry door to all other doors, exits,
bathrooms, and storage closets, with one path going into
the center of the room.
3. Locate and circle the Protected Corners.
This will help you reserve prime space for quiet activities
such as reading. Farthest from the entry door. No doors or
flow-paths going through.
4. Divide into Wet and Dry Regions.
Wet Region: Apply the 3F rule to determine the wetregion: flow, flooring, and fixed plumbing (sinks and
toilets). Dry Region: Should contain at least one protected
corner and can be carpeted.
5. Divide into Zones.
Wet Region: Entry Zone/ Messy Zone
Dry Region: Active Zone/ Quiet Zone
Dont forget the Outdoor Zone
6. Decide what activity areas are needed and locate them
in the appropriate zone.
7. Create a space for each area.
This space includes storage for items used in that area. It communicates possibilities and
limitations. For example, a space with little cozy nooks communicates, Here is a place for
quiet play. An arch across the entry tells you, Leave your tricycle outside, you are entering
a protected space.
Figure 18 second step
www.communityplaythings.com
Figure 19 third step
www.communityplaythings.com
Figure 20 complete room
www.communityplaythings.com Figure 21 complete room www.communityplaythings.com
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The five main types of pupil activity were recorded using the following categories:
1 Engaged on task
2 Task related3 Distracted
4 Waiting
5 Other.
Indoor air qualityOn average there are three children with asthma in every classroom in the UK, and half a million children with asthma miss
school at least once a month because of their symptoms. (Asthma UK, Making school a stress-free zone, 6th
September 2005.)
There is increasing evidence of a relationship between the rise in allergic reaction and poorindoor air quality in modern buildings.
Humidity
Hygroscopic building materials are 9 times more effective than mechanical ventilation in
controlling indoor relative humidity(VTT, Espoo, Finland, 2005)Depending on factors such as insulation, materials, ventilation, cold bridges and air
leakages, a building can cope with a wide range of moisture levels in the air. Hygroscopicity
describes the ability of materials to absorb moisture when the humidity rises and then re-
emit it when the air becomes dry. And it can help to stabilise relative humidity in the air and
can help to prevent damp-related damage as well as mould and mite growth.
Materials such as timber, plaster, earth and textiles have hygroscopic properties, so long as
they are not treated with impervious coatings. ( Sustainable Construction CPD Module 6/15,
Ventilation and Cooling Strategies by Gaia Research)
e.g. materials with hygroscopic properties or moisture mass, and/ or ventilation systems
that do not rely on mechanical methods, should always be the favoured options to regulate
internal humidity levels, as these require little or no maintenance and have no energy
requirement.
Moisture mass
Moisture mass, describes a property of some materials that act as moisture stores with the
ability to take up excessive moisture and release it when the RH is low. Can achieved
moisture mass through use of timber.when levels are high and then release it again when
the air is drier, thereby helping to balance the relative humidity, providing a unique indoorclimate which is also an unsuitable climate for moulds and mites.
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At low humidities, the nasal membranes are sensitized to chemical irritants, viruses and
allergens. At high humidities, mould and fungal growth as well as dust mite colonisation is
encouraged(Gaia Architects)
Materials and health
This is particularly important in school and nursery buildings as the toxins emitted by a large
number of modern building materials are denser than air and will gravitate towards floor
level, thus occupying precisely the same space and section of air as the most vulnerable
occupants - small children.
with control of the indoor environment, for example: We can regulate moisture levels and
affect the levels of bacteria (e.g. timber has been shown to have lower levels of bacteria on
the surface than other materials); and can aid dust mite control.The provision of smoothfloor coverings instead of carpets is an extremely effective method of controlling dust mites.
The design of the form and fabric of a building is the most important fundamental decision
that is made in a building in terms of its downstream impact on indoor climate
quality[Howard Liddell, Gaia Architects, 2005]
Use local material
By opting for local materials, the travel distance and associated energy requirements arereduced and subsequently CO2 emissions are minimised.by providing employment and
associated local financial investment.dramatically reduced construction time and associated
costs on site and it still, 7 years after completion, provides a unique, healthy indoor climate.
Benefits of timber
Timber has a surface temperature that is close to the air temperature. This is conducive to
creating a comfortable environment. Timber also has moisture regulating properties. Its
hygroscopic properties make it suitable for breathing constructions, which provide a unique
indoor climate.
The density of bacteria on the surface of timber is lower than that of a lot of other
materials.
Timber regulates the indoor climate by providing moisture control and a degree of
thermal mass.
1m3 of timber locks approximately 930kg of CO2.
The machining of 1m3 of timber requires (dependent on moisture content) 40-140kWh of
energy compared with 600 - 700kWh for brick walls or concrete and 2300kWh for steel.
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Occupants perceive the surface of timber to be warm, allowing the room temperature to be reduced by up to 1-2C
without loss of comfort compared with higher thermal mass materials such as blockwork or brick. Energy consumption and
heating costs can therefore
be reduced.
ventilationTo control air quality and avoid odour by diluting and removing moisture and pollutants
which can be hazardous to health and buildings, or simply unpleasant.
It reduces the scale of the mechanical and electrical installation required and associated capital cost.
At 5 - 15% of overall running costs, fan power is a major contributory factor in the overall
energy consumption of a building.
Passive ventilation reduces maintenance requirements.
Passive systems are generally simpler, easier to understand and therefore controllable by
occupants, who have been shown to experience greater satisfaction if they can control their
environment themselves.
Improving thermal comfort and indoor air quality through provision of fresh air is
important to health and well-being, and productivity(Gaya Architects)
There are 2 kind of ventilation :
1.Culvert ventilation
Internal moisture control is achieved by the use of
hygroscopic materials including wood surfaces and
moisture-open paint finishes.
2.Pore ventilation
uses the building fabric rather than mechanical
systems. Air is drawn into the building through its
insulation, which acts as a counter-flow heatexchanger and heat usually lost by conduction to
outside is exchanged with the air drawn in.
(www.gaiagroup.org/Research/RI/DI/index.html)
Figure 22 culvert ventilation source: Gaya Architects
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Airtightness
Airtightness contributes positively to the indoor climate and to occupants comfort by
eliminating draughts. Also, controlling infiltration, makes it easier to regulate ventilation and
heating accurately and to predict requirements. A reduction in heat-loss through gaps in the
building envelope significantly improves energy efficiency, thereby saving on heating costs
and reduces the emissions associated with energy production.
Daylighting
Good lighting enhances the quality of a space and contributes to creating an appropriate
atmosphere. And natural light should always be the first choice for illuminating a space
during the day.
In fact research indicates that daylighting can have a positive impact on peoples health and
physical development.( Sandy Halliday, Lighting and Daylighting, Sustainable Construction CPD Module
2/15, ISBN 1-904680-2-X & Understanding daylighting in Sportshalls by Gaia Research for SportScotland:
http://daylight.sportscotland.net/)
work in classrooms without daylight may upset the basic hormone pattern and this in turn
may influence the childrens ability to concentrate or cooperate, and also eventually may
have an impact on annual body growth and absenteeism.( Kuller, R and C. Lindsten, Health and
Behaviour of Children in Classrooms with and without windows. Journal of Environmental Psychology, 12, pp.
305-317, 1992.)
Daylighting had enabled heating, ventilation and air-conditioning requirements to be
reduced, thereby reducing the associated overall running costs and moreover noise levels,
thus providing better learning environments.
Advantages of Daylight
zero electrical energy consumption;
reduced running costs;
enhances the quality of a space and contributes to
creating an appropriate atmosphere;
positive impact on occupants health;
positive impact on childrens educational development.
And it is better to consider:
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daylight vs heat loss;
daylight vs excessive solar heat gain;
daylight vs glare;
use of rooflights to provide a more even spread of light than vertical windows;
the fact that a higher daylight factor is achievable with rooflights than with window orclerestories;
the fact that occupants appreciate views;
Daylighting and energy
Apart from the perceived health and educational benefits, the use of daylight in lieu of
artificial lighting has ecological and economical advantages. The energy consumption
associated with artificial lighting traditionally represents a significant proportion (2530%)
of the overall primary energy consumption and up to 50% of the electrical load of buildings.A reduction in the requirement for artificial lighting can therefore impact greatly on the
overall energy requirement and running costs of a building. This is because lamps used less
frequently will require to be replaced less often, thus reducing maintenance costs as well as
energy consumption.
The orientation of windows and rooflights requires careful consideration to avoid glare,
overheating and excessive heat loss.
different and varying levels of transparency between spaces inside (windows between
different functional spaces which permit views which may be altered with curtains or blinds,
for example). This ensures that the environment reflects and communicates the life of the
school and the activities carried out with and by the children.
Tarensparenti
the pedagogical stance is translated into architectural space with a high level of
transparency allowing for an awareness of the learning happening in the school. Quite often
the teachers and children are informed by others work and this is allowed to transform
their investigations.
The transparency allows for the outside green space to be understood by the children, but
also for them to be connected to the city, and the city to them. Their buildings are
considered public, civic buildings, in that the children are the future richness of the city.
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Side windows
Low ceiling and deep classroom could experience a gloomy feeling due to the disparity in
light levels between the back of the room and the peripheral area near the window.
Effective illumination can be obtained for room depth as much as 21/2
times the height ofthe window above the workplane.
Light shelves can provide a good remedy to this problem. They are designed such that the
clearstory portion above the light shelf catches sunlight or diffuses daylight and reflects it
toward the back of the room away from the window.
Figure 23 from left to right:
1.Narrow window allows narrow daylight distribution with the effective daylit area depending on the height of
the window above the window sill.
2.Large window allows wider daylight distribution but the effective daylit area remains a function of the
window height.
3.Daylight distribution with and without a light shelf
Source: Mark Dudek
Sustainability
Keeping sustainability to the fore throughout the design process means the building services
should become the last resort for cutting carbon dioxide (C02) emissions. All the issues
associated with sustainability-maximising the amount of natural light by aligning the
building appropriately with the sun path, minimising the amount of soil removed from site,
considering refurbishment and re-use of materials before a new build (which inevitably
consumes more energy in creating the new materials used), and the effect of materials andbuilding form on the internal environment and energy consumption - all must be thoroughly
examined before specifying low energy buildings services equipment.
water use should be minimised by the selection of low or zero usage fittings and by
collecting rainwater for re-use in non-potable functions such as urinal wash down or toilet
flushing. Artificial lighting should be provided with daylight controls and presence detectors.
Ventilation design should first try to use the natural movement of the outside air into the
school building by using the rising warm air leaving the classrooms, or the prevailing winds,
to draw the fresh air into the rooms.
Where mechanical ventilation is necessary or desirable, there are a number of techniques tominimise the energy it requires, including heat recovery or drawing in fresh air through
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earth tubes that use the relatively stable earth temperatures to cool or pre-warm the air
entering the building. Again, the need for cooling can be reduced through sympathetic IT
equipment specification, which can operate at higher temperatures or have lower heat
gains.
The national grid can provide power from renewable sources, but alternative localised
power sources using wind, water or photovoltaic can also be assessed, along with the option
of local power generation using gas-fired combined heat and power (CHP) units. Biomass
and thermal solar heating can be used to reduce the CO2 emissions resulting from the
heating and hot water demands of the building, often at surprisingly low costs.
Colour
Every colour produces a corresponding influence on the mind[Goethe]
highlight the importance of colour in the learning environment, linking colour toproductivity, attitudes and behaviour colour of the walls in classrooms affects productivity
and accuracy.
Children listen to the meaning of life in all its colors; they listen to each other using peer
groups as constructors of knowledge - rather than adults alone...they understand that
differences have power...(and) that uncertainty is not insecurity.
Landscape
the role of the environment-as-teacher, childrens multiple symbolic languages,
documentation as assessment and advocacy, long-term projects or progettazione, the
teacher as researcher.(New, Rebecca. Reggio Emilia: Catalyst for Change and Conversation inERIC/EECE Digests, December 2000)
Think of the yard as a landscape
Yard
The introduction of natural material into the existing yards would offer additional types ofdevelopmental opportunities to the children.
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the play equipment did foster physical development. Physical competence was gained as
the equipment was used and abused by children.
The interventions are as follows:
Permanent interventions:
1 Sensorimotor planting circle.
2 Plantings at the arch climber.
3 Plantings at
4 Plantings in the asphalt area.
5 Unmown grass area.
6 Stepping stones.
7 Boulders.
8 Two vegetative rooms. Two 1.5m _ 1.5m
Temporary interventions:1 Ice blocks.
2 Wind chimes.
3 Overhead canopy.
4 Water troughs.
5 Movement of playhouse.
6 Sand buckets.
large timber bench with solid base has many functions, spanning various
activities. It acts as a plinth for improvised play and forms a basic building block for the
children to use in various ways. The complexity of the unit can be designed to suit budgetand needs.
The results suggested that when simple landscape elements were introduced into yards,
different types of development were encouraged.
For example, the vegetative rooms referred to in Figure inspired a wide range of fantasy
play that was not witnessed prior to their installation. The use of these vegetative rooms
changed the existing social hierarchy of the class because some children were more
attracted to the rooms, and unlike the play structures these spaces became sites for fantasy
play and socialization.
Figure 24 Design
option source:
Mark Dudek
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Figure 25 Figure 25a, b Interventions at the Iowa State play yard. Source: Mark Dudek
Modern Method of Construction
At the present time, traditional brick and block methods of construction remain cheaper, in
many cases, than modern methods of construction (MMC), including off-site manufacture
(OSM). The time savings available do not currently provide a compelling financial reason to
switch production. There are a number of further factors that exacerbate this cost
disadvantage for OSM and MMC:
the scale of production required to take advantage of reduced costs through economies of
scale is not always available;
the nature of the planning system may have operated against the introduction of OSM by
increasing delays and uncertainty;
new production methods require housebuilders, their subcontractors and employees to
develop new skills and competencies;
investors do not necessarily see the commercial benefits of switching from tried and
tested methods of construction to approaches that are uncertain and where the reaction of
consumers and mortage lenders are also unknown; and
the National House-Building Council (NHBC), who provide the vast majority of warranties
for new houses, take a very cautious approach to new production techniques, particularly
where houses are sold to private customers (For example, NHBC would not necessarily provide awarranty for private sale for some OSM schemes, even where these have been used in the social housing
sector.) pp. 107-108, Barker Review Interim Report(2003).
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MMCs competitive position may strengthen with the zero carbon agenda: MMC homes are
capable of achieving high standards of energy efficiency (CLG, 2009), and further experience
may show this to be a worthwhile competitive advantage.
in multi-storey developments where innovation is more acceptable (partly due to their more
repetitive style or design), prefabrication therefore remains a minor feature, but this is likely
to adjust in the years ahead. With the move towards zero carbon, quality of build and
tolerances will become more critical; achieving the necessary standards of installation with
the existing subcontractor base may well become less cost effective, especially in a more
rigorous regulatory environment (Callcutt, 2007).
Conclusion
Every child has three teachers: the other children, the teacher and the space
[Swedish saying]
Clarifying the new ideas of their pedagogy with current architectural thought, the
keywords they used to describe their objectives were: overall softness, relation, osmosis,
multisensoriality, epigenesist, community, constructiveness, narration, rich normality.
Secondary to this, the design tools are listed as: relational forms, color, materials, smel l,
sound and microclimate.
Educators committed to young adolescents Needed architecturally: the building must be fun
and an exciting place to be, filled with colour and light. There should be provision for places
to hang out and with overlooks, places to see and be seen.
A shared vision Needed architecturally: a planning process informed by the commitment
and the vision ofall the stakeholders. The board, superintendent, principal as leader and
informed faculty/staff, all participating, and on board.
An adult advocate for every student Needed architecturally: space for files, activity space for
advisory groups to meet, involving all faculty and staff.
Family and community partnerships Needed architecturally: parents room, office,
lounge, as well as community access to facilities such as the gym, the auditorium and the
media centre.
Varied teaching/learning approaches, cultivating multiple intelligences, providing hands-on
experiences, interdisciplinary, actively involving students in learning; a curriculum that is
challenging, integrative and exploratory Needed architecturally: facilities to enhance
the intelligences music, art, drama, dance, film and video, out-of-doors, social spaces. Also
required are classrooms of varying sizes and classrooms that permit varied activities; project
rooms that are not necessarily science rooms; places to work and to be alone; places to
accommodate a wide range of equipment.
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Assessment and evaluation processes that promote learning Needed architecturally:
authentic assessment involves spaces to create, perform and present student work for
evaluation.
Flexible organizational structures Needed architecturally: provision for individual
and team planning; team offices that are not departmentalized; team areas for kids, flexible
spaces for flexible grouping; planning time and spaces to work that are not in the lunch
room; teachers seen to be professionals.
Programmes that foster health, well-being and safety: comprehensive guidance services
Predictability/ Clear paths to activities/ Well-defined boundaries/ Enough opportunity for
movement/ Freedom for exploration/ Privacy/ Variety Enough complexity (versatile open-
ended units)/ Flexibility Varied levels of stimulation/ A supportive environment/ The right
amount of empty space Inviting, welcoming, home-like feel MemorabilityMake a good space.
Than modern methods of construction (MMC), including off-site manufacture (OSM) aresuitable choice because of future advantage that exacerbate this cost disadvantage.
Best Material is Timber which has a surface temperature that is close to the air
temperature. This is conducive to creating a comfortable environment. Timber also has
moisture regulating properties. Its hygroscopic properties make it suitable for breathing
constructions, which provide a unique indoor climate. And timber is a Hygroscopic building
materials which is 9 times more effective than mechanical ventilation in controlling indoor
relative humidity.
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Reference
1.Dudek, M. (2007).A Design Manual. Schools and Kindergartens. Berlin: Birkhauser Verlag AG.
2.Dudek, M. (1996). Kindergarten Architecture: Space for the imagination. London: E&FN Spon.
3.Dudek, M., & Nicholson, E. (2005). Children's Space. Oxford: Architectureal Press. Elsevier.
4.Gaia Architects and Gaia Research. (2005). Design&Construction of Sustainable Schools. Volume 02
Lessons From School Buildings In Norway And Germany. Retrieved April 5, 2011, from Gaiagroup.org:
http://www.sust.org/pdf/SUST_1.pdf
5.Burke, C. (2005, May). The school without tears: E. F. ONeill of Prestolee, History of Education, 34:
3, 263-275. Retrieved April 11, 2011, from Informaworld:
http://www.informaworld.com/smpp/section?content=a714030262&fulltext=713240928
6.Baker, K. (2004, March). Review of Housing Supply. Final Report; Recomendations.
Retrieved April 18, 2011, from
http://image.guardian.co.uk/sys files/Guardian/documents/2004/03/17/Barker.pdf
7.Dr. Chris Goodier, Loughborough University & Dr. Wei Pan, University of Plymouth, The
future of uk housebuilding, RICS research, December 2010
8.Francis Wardle, Pre-k Spaces Design for a quality classroom
9.Kritchevsky, S. & Prescott, E. & Walling, L. 1977. Planning Environments for Young
Children, Physical Space, NAEYC
10.BREAM. (n.d.). ECOHOMES. Retrieved April 11, 2011, from BREAM:
http://www.breeam.org/page.jsp?id=21
11.Department for Communities and Local Government, Code for Sustainable Homes- Technical
Guide, November 2010
12.Chance Shannon, Proceedings of the 20th National Conference on the Beginning Design
Student, Published by: Hampton University Urban Institute Department of Architecture
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13.Michelle Galiad, Kindergarten Educational Spaces, Birkhauser. Basel. Boston. Berlin
14.http://www.barkerreview.org.uk/
15.www.communityplaythings.com
16.www.forestry.gov.uk
17.Shelter, Building for the Future 2004 Update: A Report of the Shelter Housing
Investment Project, (2004).
18.ODPM Appraisal Guidance, Valuing the External Benefits of Undeveloped Land A
Review of the Economic Literature.
19.CLG Live Table 241,211 & 401
20.http://www.ttjonline.com/story.asp?storycode=52325
21.Building a Greener Future: policy statement, 23 July 2007
Contemporary Timber Construction for a Kindergarten.
Table
Table 1 : www.communityplaythings.com
Figure
Figure 1-4 : Dudek, M. (2007).A Design Manual. Schools and Kindergartens. Berlin: Birkhauser Verlag
AG.
Figure 5 : Dudek, M., & Nicholson, E. (2005). Children's Space. Oxford: Architectureal Press. Elsevier.
Figure 6-10 : Dudek, M. (1996). Kindergarten Architecture: Space for the imagination. London: E&FN
Spon.
Figure 11 : www.forestry.gov.uk
Figure 12-14 : Galton et al. (1999).30
Figure 15,16 : Bennett et al. (1980).33
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Figure 17-21 : www.communityplaythings.com
Figure 22 : Gaia Architects and Gaia Research. (2005). Design&Construction of Sustainable Schools.
Volume 02 Lessons From School Buildings In Norway And Germany. Retrieved April 5, 2011, from
Gaiagroup.org: http://www.sust.org/pdf/SUST_1.pdf
Figure 23-25 : Dudek, M. (2007). A Design Manual. Schools and Kindergartens. Berlin:
Birkhauser Verlag AG.
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