## Introducción La magia de la arquitectura se manifiesta en cada rincón de los espacios que habitamos, y cuando se trata de proyectos innovadores, los Apartamentos Marina son una joya digna de admiración. En este artículo, exploraremos el fascinante trabajo del estudio de visualización arquitectónica alemán, edelVIZ, liderado por el talentoso Jonathan Josenhans. Con un enfoque fresco y...

herramienta de medición, Leica BLK3D, tecnología de medición, mediciones en 3D, telemetría, diseño arquitectónico, innovación tecnológica ## Introducción El **Leica BLK3D**, un dispositivo que se presenta como la panacea para todos nuestros problemas de medición, es simplemente otra herramienta más en un mercado saturado. Nos dicen que es versátil, que permite medir en fotos, que tiene un...

Al Hajar Mountains in OmanL_B_Photography/Shutters​tock A section of Earth’s mantle beneath Oman appears to be unusually warm, in what researchers say may be the first known “ghost plume” – a column of hot rock emanating from the lower mantle without apparent volcanic activity on the surface. Mantle plumes are mysterious upwellings of molten rock believed to transmit heat from the core-mantle boundary to the Earth’s surface, far from the edges of tectonic plates. There are a dozen or so examples thought to occur underneath the middle of continental plates – for instance, beneath Yellowstone and the East African rift. “But these are all cases where you do have surface volcanism,” says Simone Pilia at the King Fahd University of Petroleum and Minerals in Saudi Arabia. Oman has no such volcanic clues. Pilia first came to suspect there was a plume beneath Oman “serendipitously” after he began analysing new seismic data from the region. He observed the velocity of waves generated by distant earthquakes slowed down in a cylindrical area beneath eastern Oman, indicating the rocks there were less rigid than the surrounding material due to high temperatures. Other independent seismic measurements showed key boundaries where minerals deep in the Earth change phases in a way consistent with a hot plume. These measurements suggest the plume extends more than 660 kilometres below the surface. The presence of a plume could also explain why the region has continued to rise in elevation long after tectonic compression – a geological process where the Earth’s crust is squeezed together – stopped. It also fits with models of what could have caused a shift in the movement of the Indian tectonic plate. “The more we gathered evidence, the more we were convinced that it is a plume,” says Pilia, who named the geologic feature the “Dani plume” after his son. Unmissable news about our planet delivered straight to your inbox every month. Sign up to newsletter “It’s plausible” that a plume indeed exists there, says Saskia Goes at Imperial College London, adding the study is “thorough”. However, she points out narrow plumes are notoriously difficult to detect. If it does exist, however, the presence of a “ghost plume” contained within the mantle by the relatively thick rocky layer beneath Oman would suggest there are others, says Pilia. “We’re convinced that the Dani plume is not alone.” If there are many other hidden plumes, it could mean more heat from the core is flowing directly through the mantle via plumes, rather than through slower convection, says Goes. “It has implications, potentially, for the evolution of the Earth if we get a different estimate of how much heat comes out of the mantle.” Journal referenceEarth and Planetary Science Letters DOI: 10.1016/j.epsl.2025.119467 Topics:

432 Park Avenue | © Halkin Mason Photography, Courtesy of Rafael Viñoly Architects Located in Midtown Manhattan, 432 Park Avenue is a prominent figure in the evolution of supertall residential towers. Completed in 2015, this 1,396-foot-high building by Rafael Viñoly Architects asserts a commanding presence over the city’s skyline. Its minimalist form and rigorous geometry have sparked considerable debate within the architectural community, marking it as a significant and controversial addition to New York City’s built environment. 432 Park Avenue Technical Information Architects1-8: Rafael Viñoly Architects Location: Midtown Manhattan, New York City, USA Gross Area: 38,344 m2 | 412,637 Sq. Ft. Project Years: 2011 – 2015 Photographs: © Halkin Mason Photography, Courtesy of Rafael Viñoly Architects It’s a building designed for the enjoyment of its occupants, not for the delight of its creator. – Rafael Viñoly 432 Park Avenue Photographs © Halkin Mason Photography, Courtesy of Rafael Viñoly Architects Courtesy of Rafael Viñoly Architects Courtesy of Rafael Viñoly Architects Courtesy of Rafael Viñoly Architects Courtesy of Rafael Viñoly Architects Design Intent and Conceptual Framework At the heart of 432 Park Avenue’s design lies a commitment to pure geometry. The square, an elemental form, defines every aspect of the building, from its floor plate to its overall silhouette. This strict adherence to geometry speaks to Viñoly’s rationalist sensibilities and interest in stripping architecture to its fundamental components. The tower’s proportions, with its height-to-width ratio of roughly 1:15, transform this simple geometry into a monumental presence. This conceptual rigor positions the building as an object of formal clarity and a deliberate statement within the city’s varied skyline. The design’s minimalism extends beyond the building’s shape, reflecting Viñoly’s pursuit of a refined and disciplined expression. Eschewing decorative flourishes, the tower’s form directly responds to programmatic needs and structural imperatives. This disciplined approach underpins the project’s ambition to redefine the experience of vertical living, asserting that luxury in residential design can emerge from formal simplicity and a mastery of proportion. Spatial Organization and Interior Volumes The interior organization of 432 Park Avenue reveals an equally uncompromising commitment to clarity and openness. Each residential floor is free of interior columns, a testament to the structural ingenuity of the concrete exoskeleton. This column-free arrangement grants unobstructed floor plans and expansive panoramic views of the city, the rivers, and beyond. Floor-to-ceiling windows, measuring nearly 10 feet in height, accentuate the sense of openness and lightness within each residence. The tower’s slender core houses the vertical circulation and mechanical systems, ensuring the perimeter remains uninterrupted. This core placement allows for generous living spaces that maximize privacy and connection to the urban landscape. The interplay between structural precision and panoramic transparency shapes the experience of inhabiting these spaces. The result is a sequence of interiors that privilege intimacy and vastness, anchoring domestic life within an architectural expression of purity. Materiality, Structural Clarity, and Detailing Material choices in 432 Park Avenue reinforce the project’s disciplined approach. The building’s exposed concrete frame, treated as structure and façade, lends the tower a stark yet refined character. The grid of square windows, systematically repeated across the height of the building, becomes a defining feature of its visual identity. This modular repetition establishes a rhythmic order and speaks to the building’s underlying structural logic. High-strength concrete enables the tower’s slender profile and exceptional height while imparting a tactile materiality that resists the glassy anonymity typical of many contemporary towers. The restrained palette and attention to detail emphasize the tectonic clarity of the building’s assembly. By treating the structure itself as an architectural finish, Viñoly’s design elevates the material expression of concrete into a fundamental element of the building’s identity. Urban and Cultural Significance As one of the tallest residential buildings in the Western Hemisphere, 432 Park Avenue has significantly altered the Manhattan skyline. Its unwavering verticality and minimal ornamentation create a dialogue with the city’s diverse architectural heritage, juxtaposing a severe abstraction against a backdrop of historic and contemporary towers. 432 Park Avenue occupies a distinctive place in the ongoing narrative of New York City’s architectural evolution. Its reductive form, structural clarity, and spatial generosity offer a compelling study of the power of minimalism at an urban scale. 432 Park Avenue Plans Floor Plans | © Rafael Viñoly Architects Floor Plans | © Rafael Viñoly Architects Floor Plans | © Rafael Viñoly Architects Floor Plans | © Rafael Viñoly Architects 432 Park Avenue Image Gallery © Rafael Viñoly Architects About Rafael Viñoly Architects Rafael Viñoly, a Uruguayan-born architect (1944–2023), founded Rafael Viñoly Architects in New York City in 1983. After studies in Buenos Aires and early practice in Argentina, he relocated to the U.S.. He established a global firm with offices in cities including London, Palo Alto, and Abu Dhabi. Renowned for large-scale, function-driven projects such as the Tokyo International Forum, Cleveland Museum of Art expansions, and 432 Park Avenue, the firm is praised for combining structural clarity, context-sensitive design, and institutional rigor across six continents. Credits and Additional Notes Client: Macklowe Properties and CIM Group Design Team: Rafael Viñoly (Architect), Deborah Berke Partners (Interior Design of residential units), Bentel & Bentel (Amenity Spaces Design) Structural Engineer: WSP Cantor Seinuk Mechanical, Electrical, and Plumbing Engineers: Jaros, Baum & Bolles (JB&B) Construction Manager: Lendlease Height: 1,396 feet (425.5 meters) Number of Floors: 96 stories Construction Years: 2011–2015

Casa Morena | © Fernando Guerra / FG+SG In the coastal enclave of Lagos, Portugal, Mário Martins Atelier has crafted Casa Morena. This residence quietly asserts itself as an ode to the dialogue between architecture and its natural setting. Completed in 2024, this project demonstrates a considered response to its environment, where the interplay of light, material, and landscape defines a sense of place rather than architectural imposition. Casa Morena Technical Information Architects1-5: Mário Martins Atelier Location: Lagos, Portugal Project Years: 2024 Photographs: © Fernando Guerra / FG+SG A simple house, one that wishes to be discreet and to be influenced by its location, to become a house that is pleasant with thoughtful landscaping. – Mário Martins Atelier Casa Morena Photographs © Fernando Guerra / FG+SG © Fernando Guerra / FG+SG © Fernando Guerra / FG+SG © Fernando Guerra / FG+SG © Fernando Guerra / FG+SG © Fernando Guerra / FG+SG © Fernando Guerra / FG+SG © Fernando Guerra / FG+SG © Fernando Guerra / FG+SG © Fernando Guerra / FG+SG A Contextual Response to Landscape and Light The design of Casa Morena finds its genesis in the site itself, a pine-scented plot overlooking the expanse of a bay. The pine trees, longstanding witnesses to the landscape’s evolution, provide the project’s visual anchor and spatial logic. In a move that both respects and celebrates these natural elements, Mário Martins Atelier structured the house’s reticulated plan to echo the presence of the trees, creating a composition that unfolds as a series of volumes harmonizing with the vertical rhythm of the trunks. The solid base of the house, built from locally sourced schist, emerges directly from the terrain. These robust walls establish a tactile continuity with the ground, their rough textures anchoring the architecture within the landscape. In contrast, the upper volumes of the house adopt a distinctly lighter expression: horizontal planes rendered in white plaster, their smooth surfaces catching and refracting the region’s luminous sun. This duality, earthbound solidity, and aerial lightness establish an architectural narrative rooted in the elemental. Casa Morena Experiential Flow Casa Morena’s spatial arrangement articulates a clear hierarchy of public and private domains. On the ground floor, the house embraces openness and transparency. An expansive entrance hall blurs the threshold inside and out, guiding inhabitants and visitors into a luminous social heart. The lounge, kitchen, and office flow seamlessly into the garden, unified by a continuous glazed façade that invites the outside in. This deliberate porosity extends to a covered terrace, an intermediary space that dissolves the boundary between shelter and exposure. The terrace, framed by the garden’s green canopy and the swimming pool’s long line, becomes a place of repose and contemplation. The pool itself demarcates the transition from a cultivated garden to the looser, more rugged landscape beyond, its linear form echoing the horizon’s expanse. Ascending to the upper floor, the architectural language shifts towards intimacy. The bedrooms, each with direct access to terraces and patios, create secluded zones that still maintain a fluid relationship with the outdoors. A discreet rooftop terrace, accessible from these private quarters, offers a hidden sanctuary where the interplay of views and light remains uninterrupted. Material Tectonics and Environmental Strategy Casa Morena’s material palette is rooted in regional specificity and tactile sensibility. Schist, extracted from the site, is not merely a structural element but a narrative thread linking the building to its geological past. Its earthy warmth and rugged surface provide a counterpoint to the luminous white of the upper volumes, an articulation of contrast that enlivens the building’s silhouette. White, the chromatic signature of the Algarve region, is employed with restraint and nuance. Its reflective qualities intensify the play of shadow and light, a dynamic that shifts with the passing of the day. In this interplay, architecture becomes an instrument for registering the ephemeral, and the environment itself becomes a participant in the spatial drama. Environmental stewardship is also woven into the project’s DNA. Discreetly integrated systems on the roof harness solar energy and manage water resources, extending the house’s commitment to a sustainable coexistence with its setting. Casa Morena Plans Basement | © Mario Martins Atelier Ground Level | © Mario Martins Atelier Upper Level | © Mario Martins Atelier Roof Plan | © Mario Martins Atelier Elevations | © Mario Martins Atelier Casa Morena Image Gallery About Mário Martins Atelier Mário Martins Atelier is an architectural studio based in Lagos and Lisbon, Portugal, led by Mário Martins. The practice is known for its context-sensitive approach, crafting contemporary projects seamlessly integrating with their surroundings while prioritizing regional materials and environmental considerations. Credits and Additional Notes Lead Architect: Mário Martins, arq. Project Team: Nuno Colaço, Sónia Fialho, Susana Jóia, Mariana Franco, Ana Graça Engineering: Nuno Grave Engenharia Landscape: HB-Hipolito Bettencourt – Arquitectura Paisagista, Lda. Building Contractor: Marques Antunes Engenharia Lda.

NASA's Mars Odyssey orbiter captured the first horizon view of Arsia Mons, an enormous volcano on the Red Planet. Credit: NASA / JPL-Caltech / ASU NASA’s longest-running Mars mission has sent back an unprecedented side view of a massive volcano rising above the Red Planet, just before dawn.On May 2, as sunlight crept over the Martian horizon, the Odyssey spacecraft captured Arsia Mons, a towering, long-extinct volcano, puncturing a glowing band of greenish haze in the planet’s upper atmosphere. The 12-mile-high volcano — nearly twice the height of Mauna Loa in Hawaii — punctures a veil of fog, emerging like a monument to the planet's ancient past. The space snapshot is both visually arresting and scientifically enlightening."We picked Arsia Mons hoping we would see the summit poke above the early morning clouds," said Jonathon Hill, who leads Odyssey's camera operations at Arizona State University, in a statement, "and it didn't disappoint."   Arsia Mons sits at the southern end of a towering trio of volcanoes called the Tharsis Montes. Credit: NASA / JPL-Caltech To get this view, Odyssey had to do something it wasn’t originally built for. The orbiter, which has been flying around Mars since 2001, usually points its camera straight down to map the planet’s surface. But over the past two years, scientists have begun rotating the spacecraft 90 degrees to look toward the horizon. That adjustment allows NASA to study how dust and ice clouds change over the seasons. Mashable Light Speed Want more out-of-this world tech, space and science stories? Sign up for Mashable's weekly Light Speed newsletter. By clicking Sign Me Up, you confirm you are 16+ and agree to our Terms of Use and Privacy Policy. Thanks for signing up! Though the image is still an aerial view, the vantage point is of the horizon, similar to how astronauts can see Earth's horizon 250 miles above the planet on the International Space Station. From that altitude, Earth doesn’t fill their entire view — there’s enough distance and perspective for them to see the planet's curved edge meeting the blackness of space. Odyssey flies above Mars at about the same altitude. Arsia Mons sits at the southern end of a towering trio of volcanoes called the Tharsis Montes. The Tharsis region is home to the largest volcanoes in the solar system. The lack of plate tectonics on the Red Planet allowed them to grow many times larger than those anywhere on Earth.Together, they dominate the Martian landscape and are sometimes covered in clouds, especially in the early hours. But not just any clouds — these are made of water ice, a different breed than the planet’s more common carbon dioxide clouds. Arsia Mons is the cloudiest of the three.  Scientists have recently studied a particular, localized cloud formation that occurs over the mountain, dubbed the Arsia Mons Elongated Cloud. The transient feature, streaking 1,100 miles over southern Mars, lasts only about three hours in the morning during spring before vanishing in the warm sunlight. It's formed by strong winds being forced up the mountainside.   Related Stories The cloudy canopy on display in Odyssey's new image, according to NASA, is called the aphelion cloud belt. This widespread seasonal system drapes across the planet's equator when Mars is farthest from the sun. This is Odyssey's fourth side image since 2023, and it is the first to show a volcano breaking through the clouds."We're seeing some really significant seasonal differences in these horizon images," said Michael D. Smith, a NASA planetary scientist, in a statement. "It’s giving us new clues to how Mars' atmosphere evolves over time." Topics NASA Elisha Sauers Elisha Sauers writes about space for Mashable, taking deep dives into NASA's moon and Mars missions, chatting up astronauts and history-making discoverers, and jetting above the clouds. Through 17 years of reporting, she's covered a variety of topics, including health, business, and government, with a penchant for public records requests. She previously worked for The Virginian-Pilot in Norfolk, Virginia, and The Capital in Annapolis, Maryland. Her work has earned numerous state awards, including the Virginia Press Association's top honor, Best in Show, and national recognition for narrative storytelling. For each year she has covered space, Sauers has won National Headliner Awards, including first place for her Sex in Space series. Send space tips and story ideas to [email protected] or text 443-684-2489. Follow her on X at @elishasauers.

Drinking Fountain of La Arboleda (Bebedero) | 1970s Photograph Luis Barragan’s work is often celebrated for its profound dialogue between form, memory, and landscape. In the Drinking Fountain of La Arboleda, Barragán channels these core principles into a singular architectural gesture. Situated at the culmination of the Paseo de los Gigantes, this fountain transcends utilitarian function to become a space of contemplation and poetic reflection. Drinking Fountain of La Arboleda Technical Information Architects1-2: Luis Barragán Location: Avenida Paseo de los Gigantes, Las Arboledas, Mexico Height: 14.6 meters Width: 10.4 meters Project Years: 1960s Plans by: Enrique Delgado Camara In Las Arboledas I had the pleasure of building a large rectangular pond among eucalyptus trees; however, while doing so, I thought of Persian gardens, I also thought of De Chirico, I also thought that water is a mirror, and I liked that it reflected the branches of the trees. You know, popular architecture has always impressed me because it is pure truth and because the spaces that occur in plazas, in porticos, in courtyards, are always given with generosity. – Luis Barragán Drinking Fountain of La Arboleda Photographs Drinking Fountain of La Arboleda (Bebedero) | 1970s Photograph 1970s Photograph 1970s Photograph 1970s Photograph 1970s Photograph Spatial Composition and Geometric Manipulation The project extends Barragán’s broader explorations in Las Arboledas and Los Clubes, developments marked by an intimate relationship with nature and a restrained formal language. Here, water becomes material and metaphor, shaping a spatial experience that is as much about the mind as the body. The Drinking Fountain of La Arboleda is defined by the dynamic interplay of two elements: a towering white wall and a long, linear water trough. The wall, rising to a height of 14.6 meters, asserts its presence in the landscape as a vertical marker. It competes with, yet does not overshadow, the surrounding eucalyptus trees. The water trough, measuring 44 meters in length, 2.55 meters in width, and 0.67 meters in height, extends along the path in a measured horizontal counterpoint. This juxtaposition of vertical and horizontal geometries establishes a composition of duality. The white wall commands attention from afar, while the dark basin of water, offset to the side, quietly draws in the viewer’s gaze. The deliberate misalignment of these two forms prevents a static symmetry, generating a subtle sense of movement and tension within the space. Barragán’s manipulation of circulation further reinforces this dynamic quality. Rather than a direct approach, entry to the plaza is orchestrated through a series of turns. These indirect paths obscure the view and gradually reveal the fountain, heightening the sense of arrival and emphasizing the experiential choreography of the approach. Materiality and Sensory Qualities Material choices are critical in the fountain’s ability to evoke stillness and dynamism. The white stucco of the wall acts as a canvas for the interplay of light and shadow, particularly as the sun filters through the towering eucalyptus canopy. This shifting luminosity imbues the space with a living quality, constantly animated by the rhythms of the day. The basin of the fountain is constructed from dark anthracite, lending the water a reflective depth that absorbs and mirrors the surrounding environment. The edge of the water, defined by precisely cut, sharp-edged walls, creates an illusion of the water as a freestanding volume. This interplay of light, shadow, and reflection intensifies the perception of depth, dissolving the boundary between container and contained. The gentle sound of water flowing over the basin’s edge adds a sonic dimension to the experience. It serves as a subtle counterpoint to the plaza’s otherwise hushed atmosphere, enhancing the sensory richness without disrupting the meditative calm. Drinking Fountain of La Arboleda Cultural Resonance In this project, Barragán evokes a memory of rural Mexico that resonates with personal nostalgia and collective cultural imagery. The trough recalls the water basins of his childhood, echoing the hacienda landscapes and the enduring significance of water in Mexican life. Yet, by abstracting these elements into minimalist forms, he situates them within a modern architectural discourse that transcends mere historicism. Barragán’s insistence on the evocative power of space is evident in every aspect of the Drinking Fountain. It is a site of transition, marking the end of the linear paseo while simultaneously inviting introspection and pause. The project’s restrained materiality and precise spatial articulation distill Barragán’s belief in architecture as a vehicle for personal reflection and cultural continuity. His 1980 Pritzker Prize acceptance speech, in which he described his enduring fascination with water and the memories of fountains and acequias, underscores this deep personal connection. The Drinking Fountain of La Arboleda can be read as an architectural meditation on that theme. This work bridges the abstraction of modernism with the rich, elemental forces of the Mexican landscape. Drinking Fountain of La Arboleda Plans Floor Plan | © Enrique Delgado Camara Axonometric View | © Enrique Delgado Camara Drinking Fountain of La Arboleda Image Gallery About Luis Barragán Luis Barragán (1902–1988) was a Mexican architect renowned for his masterful integration of light, color, and landscape into architecture. His work blends modernist abstraction with deeply rooted Mexican traditions, crafting spaces that evoke memory, contemplation, and poetic resonance. Credits and Additional Notes Water Trough (Bebedero) Length: 44 meters Water Trough (Bebedero) Width: 2.55 meters Water Trough (Bebedero) Height: 0.67 meters Material: Anthracite-colored stone (dark tone to enhance reflections) Delgado Cámara, Enrique. La Geometría del Agua: Mecanismos Arquitectónicos de Manipulación Espacial. Enrique Delgado Cámara, 2024.  Ambasz, Emilio. The Architecture of Luis Barragán. Museum of Modern Art, New York, 1976.