"cube-shaped"

#4756228

11 August 2019

View from the inside of the Brussels Atomium, in Brussels on August 10, 2019. Designed by the engineer André Waterkeyn and architects André and Jean Polak, it stands 102 m (335 ft) tall. Its nine 18 m (60 ft) diameter stainless steel clad spheres are connected, so that the whole forms the shape of a unit cell of an iron crystal magnified 165 billion times. Tubes of 3 m (10 ft) diameter connect the spheres along the 12 edges of the cube and all eight vertices to the centre. They enclose stairs, escalators and a lift (in the central, vertical tube) to allow access to the five habitable spheres, which contain exhibit halls and other public spaces. The top sphere includes a restaurant which has a panoramic view of Brussels.

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#4756230

11 August 2019

View from the inside of the Brussels Atomium, in Brussels on August 10, 2019. Designed by the engineer André Waterkeyn and architects André and Jean Polak, it stands 102 m (335 ft) tall. Its nine 18 m (60 ft) diameter stainless steel clad spheres are connected, so that the whole forms the shape of a unit cell of an iron crystal magnified 165 billion times. Tubes of 3 m (10 ft) diameter connect the spheres along the 12 edges of the cube and all eight vertices to the centre. They enclose stairs, escalators and a lift (in the central, vertical tube) to allow access to the five habitable spheres, which contain exhibit halls and other public spaces. The top sphere includes a restaurant which has a panoramic view of Brussels.

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#4756232

11 August 2019

View from the inside of the Brussels Atomium, in Brussels on August 10, 2019. Designed by the engineer André Waterkeyn and architects André and Jean Polak, it stands 102 m (335 ft) tall. Its nine 18 m (60 ft) diameter stainless steel clad spheres are connected, so that the whole forms the shape of a unit cell of an iron crystal magnified 165 billion times. Tubes of 3 m (10 ft) diameter connect the spheres along the 12 edges of the cube and all eight vertices to the centre. They enclose stairs, escalators and a lift (in the central, vertical tube) to allow access to the five habitable spheres, which contain exhibit halls and other public spaces. The top sphere includes a restaurant which has a panoramic view of Brussels.

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#4756234

11 August 2019

View from the inside of the Brussels Atomium, in Brussels on August 10, 2019. Designed by the engineer André Waterkeyn and architects André and Jean Polak, it stands 102 m (335 ft) tall. Its nine 18 m (60 ft) diameter stainless steel clad spheres are connected, so that the whole forms the shape of a unit cell of an iron crystal magnified 165 billion times. Tubes of 3 m (10 ft) diameter connect the spheres along the 12 edges of the cube and all eight vertices to the centre. They enclose stairs, escalators and a lift (in the central, vertical tube) to allow access to the five habitable spheres, which contain exhibit halls and other public spaces. The top sphere includes a restaurant which has a panoramic view of Brussels.

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Commercial use is not permitted without prior authorization.
Please contact us for more information.

#4756236

11 August 2019

View from the inside of the Brussels Atomium, in Brussels on August 10, 2019. Designed by the engineer André Waterkeyn and architects André and Jean Polak, it stands 102 m (335 ft) tall. Its nine 18 m (60 ft) diameter stainless steel clad spheres are connected, so that the whole forms the shape of a unit cell of an iron crystal magnified 165 billion times. Tubes of 3 m (10 ft) diameter connect the spheres along the 12 edges of the cube and all eight vertices to the centre. They enclose stairs, escalators and a lift (in the central, vertical tube) to allow access to the five habitable spheres, which contain exhibit halls and other public spaces. The top sphere includes a restaurant which has a panoramic view of Brussels.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#4756238

11 August 2019

View from the inside of the Brussels Atomium, in Brussels on August 10, 2019. Designed by the engineer André Waterkeyn and architects André and Jean Polak, it stands 102 m (335 ft) tall. Its nine 18 m (60 ft) diameter stainless steel clad spheres are connected, so that the whole forms the shape of a unit cell of an iron crystal magnified 165 billion times. Tubes of 3 m (10 ft) diameter connect the spheres along the 12 edges of the cube and all eight vertices to the centre. They enclose stairs, escalators and a lift (in the central, vertical tube) to allow access to the five habitable spheres, which contain exhibit halls and other public spaces. The top sphere includes a restaurant which has a panoramic view of Brussels.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#4756240

11 August 2019

View of the Brussels Atomium, in Brussels on August 10, 2019. Designed by the engineer André Waterkeyn and architects André and Jean Polak, it stands 102 m (335 ft) tall. Its nine 18 m (60 ft) diameter stainless steel clad spheres are connected, so that the whole forms the shape of a unit cell of an iron crystal magnified 165 billion times. Tubes of 3 m (10 ft) diameter connect the spheres along the 12 edges of the cube and all eight vertices to the centre. They enclose stairs, escalators and a lift (in the central, vertical tube) to allow access to the five habitable spheres, which contain exhibit halls and other public spaces. The top sphere includes a restaurant which has a panoramic view of Brussels.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#4756242

11 August 2019

View of the Brussels Atomium, in Brussels on August 10, 2019. Designed by the engineer André Waterkeyn and architects André and Jean Polak, it stands 102 m (335 ft) tall. Its nine 18 m (60 ft) diameter stainless steel clad spheres are connected, so that the whole forms the shape of a unit cell of an iron crystal magnified 165 billion times. Tubes of 3 m (10 ft) diameter connect the spheres along the 12 edges of the cube and all eight vertices to the centre. They enclose stairs, escalators and a lift (in the central, vertical tube) to allow access to the five habitable spheres, which contain exhibit halls and other public spaces. The top sphere includes a restaurant which has a panoramic view of Brussels.

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#2957592

16 July 2018

Cube houses or Kubuswoningen in Dutch, are a set of innovative houses designed by architect Piet Blom and built in Rotterdam, the Netherlands. The houses in Rotterdam were designed in 1977 in a plan of 55, of which 39 were built.

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#2957594

16 July 2018

Cube houses or Kubuswoningen in Dutch, are a set of innovative houses designed by architect Piet Blom and built in Rotterdam, the Netherlands. The houses in Rotterdam were designed in 1977 in a plan of 55, of which 39 were built.

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#2957596

16 July 2018

Cube houses or Kubuswoningen in Dutch, are a set of innovative houses designed by architect Piet Blom and built in Rotterdam, the Netherlands. The houses in Rotterdam were designed in 1977 in a plan of 55, of which 39 were built.

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#2957598

16 July 2018

Cube houses or Kubuswoningen in Dutch, are a set of innovative houses designed by architect Piet Blom and built in Rotterdam, the Netherlands. The houses in Rotterdam were designed in 1977 in a plan of 55, of which 39 were built.

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#2957600

16 July 2018

Cube houses or Kubuswoningen in Dutch, are a set of innovative houses designed by architect Piet Blom and built in Rotterdam, the Netherlands. The houses in Rotterdam were designed in 1977 in a plan of 55, of which 39 were built.

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#2957602

16 July 2018

Cube houses or Kubuswoningen in Dutch, are a set of innovative houses designed by architect Piet Blom and built in Rotterdam, the Netherlands. The houses in Rotterdam were designed in 1977 in a plan of 55, of which 39 were built.

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#2957604

16 July 2018

Cube houses or Kubuswoningen in Dutch, are a set of innovative houses designed by architect Piet Blom and built in Rotterdam, the Netherlands. The houses in Rotterdam were designed in 1977 in a plan of 55, of which 39 were built.

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#2957612

16 July 2018

Cube houses or Kubuswoningen in Dutch, are a set of innovative houses designed by architect Piet Blom and built in Rotterdam, the Netherlands. The houses in Rotterdam were designed in 1977 in a plan of 55, of which 39 were built.

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Commercial use is not permitted without prior authorization.
Please contact us for more information.