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Infinite Corridor

The Infinite Corridor is a 825-foot-long (251-meter) east-west hallway that forms the central spine of the Massachusetts Institute of Technology (MIT) campus in Cambridge, Massachusetts, connecting the institute's primary academic buildings including Buildings 7, 3, 10, 4, and 8.^[1] Constructed in 1913 as part of the Maclaurin Buildings to accommodate the expanding campus population and curriculum, it exemplifies MIT's open and collaborative architectural philosophy, contrasting with more segmented designs at peer institutions.^[2] This double-loaded corridor functions as a primary pedestrian thoroughfare, facilitating daily commutes for thousands of students, faculty, and staff while promoting interdisciplinary interactions through its adjacency to diverse labs, classrooms, and departments.^[3] Its walls are adorned with vibrant posters advertising events, research opportunities, and student organizations, creating a dynamic atmosphere of innovation and energy that reflects the institute's culture of continuous learning.^[4] Glass partitions along sections offer glimpses into active laboratories, underscoring MIT's emphasis on transparency in scientific endeavor.^[4] The Infinite Corridor holds cultural significance at MIT, notably as the site of "MIThenge," a biannual astronomical alignment where the setting sun lines up precisely with the hallway's axis in mid-November and late January, drawing crowds to witness the phenomenon from the eastern end in Building 8.^[5] Recent campus developments, such as the 2023 renovation of the Undergraduate Advising Center in Building 11 adjacent to the corridor, have enhanced its role as a hub for student support services, including career advising and holistic academic guidance.^[1] Overall, the corridor symbolizes the interconnectedness of MIT's community, serving not only as a physical link but also as a metaphorical pathway for knowledge exchange and institutional identity.^[6]

History and Design

Construction and Architect

The Infinite Corridor was constructed between 1913 and 1916 as part of the Massachusetts Institute of Technology's relocation from Boston's Back Bay to a new 50-acre campus in Cambridge, Massachusetts. Architect William Welles Bosworth, an MIT alumnus from the class of 1889, was selected in early 1913 to design the campus plan, which emphasized a neoclassical Beaux-Arts style combining monumental aesthetics with functional flexibility for future expansion.^[7]^[2] His vision integrated the corridor as the central east-west spine, initially unifying Buildings 3, 4, 8, and 10 to create an interconnected academic core centered around courts and a grand rotunda.^[2] This design drew inspiration from classical architecture, symbolizing connectivity and order through its linear form and symmetrical layout, while prioritizing efficient interior circulation to link departments such as engineering and sciences. The corridor's initial purpose was to facilitate the flow of students and faculty across disciplines, promoting interdisciplinary interaction amid MIT's rapid growth driven by industrial and technological advancements. Specific elements included high ceilings to accommodate heavy research equipment and enhance spatial openness, along with durable marble floors for high-traffic durability.^[8]^[9]^[10] Natural light was incorporated through tall windows along the length, illuminating the double-loaded passageway and supporting its role as a vibrant campus artery. Over time, the structure has evolved to include multi-level connections, but the original construction established its foundational axis.^[2]

Renovations and Modifications

In 2010, MIT undertook a significant renovation at the eastern end of the Infinite Corridor as part of broader updates to the Main Group buildings, culminating in the opening of the Laboratory for Advanced Materials (LAM) in Building 4. This project, the third in a series following the NanoLab and Undergraduate Teaching Laboratory renovations, replaced opaque cinderblock walls, corkboards, and closed doors with extensive frosted and floor-to-ceiling glass walls to enhance public visibility into research spaces and foster a more open environment.^[11] On November 18, 2013, Lobby 10 along the Infinite Corridor was formally rededicated as the Memorial Lobby, honoring MIT alumni and faculty who died in military service. The ceremony included the installation of new bronze plaques on the lobby walls, listing the names of those lost in conflicts including World Wars I and II, Korea, Vietnam, Iraq, and Afghanistan, expanding on existing inscriptions to provide a more comprehensive tribute.^[12] The COVID-19 pandemic from 2020 to 2022 drastically altered usage of the Infinite Corridor, with campus shutdowns in March 2020 leading to a sudden silencing of its typical bustle and reduced foot traffic as classes moved online and most activities ceased. Social distancing guidelines were enforced across MIT, including in high-traffic areas like the corridor, contributing to its unusually empty state documented in photographs from March 2021 showing the hallway devoid of pedestrians during what would normally be peak hours.^[13] In 2022, the top floor of Building 4 underwent renovation to relocate the Earth, Atmospheric and Planetary Sciences (EAPS) department, creating new high-performance laboratories and offices while improving connectivity to the Infinite Corridor. This update modernized research spaces adjacent to the corridor, maintaining its role as a central hub for interdisciplinary work.^[14] In October 2025, MIT opened a new 5,000-square-foot Undergraduate Advising Center in Building 11, directly adjacent to the Infinite Corridor. The open-design space enhances student support services, including career advising and academic guidance, further integrating the corridor as a key node for campus life.^[1] Ongoing maintenance of the Infinite Corridor addresses wear from its role as a primary pedestrian route, which mixes thousands of people daily in a space originally designed in Beaux-Arts style for efficient circulation. High usage continues to necessitate periodic updates to ensure functionality amid campus expansions.^[15]

Geography and Layout

Dimensions and Main Path

The Infinite Corridor is a prominent east-west hallway spanning 251 meters (825 feet) through the heart of the Massachusetts Institute of Technology (MIT) campus, connecting the main entrance at 77 Massachusetts Avenue to Building 8.^[16]^[17] This linear path begins at Lobby 7 and sequentially passes through Buildings 3, 10, and 4 before terminating near Building 8, facilitating seamless pedestrian movement across multiple academic structures without the need for outdoor travel during inclement weather.^[17] Its hallmark straight-line design features no major turns or bends, creating extended sightlines that extend the full distance and contribute to its nickname, the "Infinite Corridor," evoking a sense of endless continuity despite its finite dimensions.^[16]^[18] To ensure accessibility, the corridor incorporates elevators and ramps at key transition points between buildings, enabling wheelchair users and those with mobility challenges to navigate the entire path. As of 2024, modernization of the elevator in Lobby 7 was underway to enhance accessibility.^[19]^[20]^[21] These features align with MIT's broader campus efforts to provide equitable access to its facilities.^[20]

Key Lobbies and Entrances

The Infinite Corridor's primary east entrance is located in Lobby 7 of Building 7 at 77 Massachusetts Avenue, serving as the symbolic main gateway to the MIT campus. This grand, four-story atrium features fluted Ionic columns, limestone facades, and a prominent dome with a skylight that floods the space with natural light, creating an imposing yet welcoming threshold to the corridor.^[22]^[23] At the corridor's central midpoint lies Lobby 10 in Building 10, known as the Memorial Lobby, which was officially dedicated on November 18, 2013, to commemorate MIT alumni who lost their lives in wartime service during World War I, World War II, the Korean War, and the Vietnam War. Positioned beneath the iconic Great Dome, the lobby includes restored and regilded wall engravings listing the names of these fallen alumni, emphasizing its role as a solemn hub along the path.^[12] The west end of the Infinite Corridor terminates near Building 8, providing a less formal exit that connects to additional campus extensions beyond the main spine running through Buildings 7, 3, 10, 4, and 8. Unlike the ornate entrances at either end, this terminus facilitates seamless pedestrian flow into adjacent areas without distinctive architectural fanfare.^[16] Pedestrian etiquette in these lobbies, particularly at Lobby 7 during peak hours, emphasizes continuous movement, with an unspoken norm against stopping or congregating in the thoroughfare to maintain efficient flow for the thousands of daily users.^[24]

Multi-Level Connections

The Infinite Corridor extends vertically across five levels, indexed from 0 to 4 at MIT, with the primary pathway situated on the first floor (Infinite 1). The upper levels (Infinite 2 through 4) partially mirror this horizontal route within sections of Buildings 3, 4, and 10, providing parallel passageways that align with key segments of the main corridor.^[25] These upper floors facilitate movement between academic spaces while maintaining connectivity to the core east-west axis. Vertical access between levels is achieved primarily through staircases and elevators strategically located at major nodes. In Lobby 7, a grand staircase ascends from the main entrance on Massachusetts Avenue, linking the ground level directly to upper floors and serving as a prominent architectural feature since the building's construction.^[26] Complementing this, elevators in Lobby 7 enable access to higher levels, including the third floor, which houses educational displays.^[27] Similarly, elevators in Lobby 10 connect all five levels, including the basement (Infinite 0) and the upper tiers, enhancing accessibility for students and visitors navigating to areas like the Barker Library.^[28] Numerous additional stairways throughout the corridor provide further inter-level transitions, though the upper levels overall experience lower foot traffic compared to the bustling ground floor.^[25] Beyond the primary east-west alignment, the Infinite Corridor incorporates branching paths that extend north and south, integrating adjacent facilities into the network. Northward spurs from central points, such as near Building 8, lead to the Department of Electrical Engineering and Computer Science in Building 6, allowing seamless access to EECS labs and offices. Southward extensions connect to the Ray and Maria Stata Center (Building 32), where the corridor morphs into wider, open linkages that blend with the center's hub-and-spoke design, fostering interdisciplinary interactions.^[29] The upper levels exhibit variations in design and usage that distinguish them from the main path. On the third floor, hallways are narrower and offer an uninterrupted east-west sweep, optimized for specific installations like the Infinite Solar System model, while remaining less congested than the first floor.^[16] These features contribute to a total connected footage across all levels that exceeds 1,000 feet, expanding the corridor's utility beyond its foundational horizontal plane.^[25]

Significance and Usage

Role in Campus Life

The Infinite Corridor serves as the central spine of the MIT campus, connecting the main academic buildings that house numerous departments, classrooms, and laboratories, thereby facilitating seamless movement across the institution.^[30] This extensive hallway, spanning approximately 825 feet in an east-west orientation, acts as the primary indoor route for pedestrians, enabling efficient east-west travel while shielding users from New England's often inclement weather.^[31] Thousands of students, faculty, and staff traverse it daily, underscoring its role as a vital artery for campus navigation and connectivity.^[15] Beyond its practical function, the corridor plays a key social role in fostering interactions among the MIT community. It frequently hosts impromptu meetings and casual conversations, capitalizing on the proximity it creates between individuals from diverse academic backgrounds, which in turn promotes cross-disciplinary collaboration.^[32] Student organizations utilize its walls for promotional displays and tabling activities to recruit members and publicize events, enhancing community engagement.^[33] Additionally, the corridor features prominently in freshman orientation tours, where new students learn about campus layout and culture while walking its length.^[34] In 2025, the renovation of the first floor of Building 11 into a 5,000-square-foot Undergraduate Advising Center hub was completed, featuring collaborative spaces, lounges, and career advising offices to support student services along the corridor.^[1] This development, part of post-pandemic reconfiguration, aims to encourage lingering and interactions in the area. Symbolically, the Infinite Corridor embodies MIT's interdisciplinary ethos by physically linking disparate fields and encouraging spontaneous exchanges that drive innovation and teamwork.^[4] Following the disruptions of the COVID-19 pandemic, which temporarily reduced foot traffic and in-person gatherings, the corridor regained its full vibrancy by 2023, with ongoing hybrid events and recent spatial enhancements further integrating it into daily campus life.^[1]

Etiquette and Pedestrian Flow

Pedestrians in the Infinite Corridor are expected to follow core unwritten rules analogous to highway traffic to maintain efficient movement: walk on the right side, pass others on the left, limit group sizes to avoid blocking lanes, avoid stopping or slowing abruptly except at designated lobbies, and yield to oncoming traffic at intersections.^[35] These guidelines, often likened to driving etiquette, designate the space near the walls as a slower lane for casual walkers or those viewing displays, while the outer portions serve as passing lanes, with oncoming flows separated by an imaginary center line that should not be crossed unnecessarily.^[36] Biking is prohibited to prevent hazards in the high-traffic environment,^[37] and groups are advised against spanning the full width of the corridor in one direction, which can impede flow.^[35] In 1997, a Civil and Environmental Engineering class at MIT conducted a detailed study titled "Finite Elements of the Infinite Corridor," treating the hallway as a transportation network to model pedestrian dynamics using finite element analysis.^[35] The project observed and simulated factors such as individual speeds, group behaviors, and bottlenecks, revealing peak flow rates of up to 163 people per minute (combined east- and westbound) during class transitions, equivalent to nearly 10,000 people per hour under optimal conditions.^[35] This analysis highlighted cyclic surges tied to class schedules, with average traversal times of 2.5 minutes but delays up to 3.7 minutes at high density, emphasizing the need for adherence to flow rules to prevent congestion.^[35] High density occurs primarily during class changes, such as between 1 and 3 p.m., when surges from large lectures create temporary "crushes" at key points like Lobby 10 or Building 3.^[35] Morning peaks around 8 to 10 a.m. similarly strain capacity as students commute to early sessions.^[31] These periods underscore the corridor's role as a vital artery, handling substantial daily volumes that necessitate disciplined movement.^[35] Enforcement relies on informal peer pressure among users, with no formal policing but widespread awareness fostered through institutional communications.^[36]

Cultural and Artistic Elements

Hacks and Pranks

At MIT, "hacks" refer to elaborate, benign pranks executed by students that demonstrate technical ingenuity and creativity while adhering to an informal code of ethics emphasizing harmlessness and amusement for the community.^[38] The Infinite Corridor serves as a prime location for such hacks due to its high visibility and daily foot traffic of thousands, providing hackers with a captive audience for their temporary installations.^[39] One notable example is the 1985 "Mass Toolpike" hack, where students transformed the entire 251-meter length of the corridor into a simulated highway by installing double yellow lane markings, traffic signals, highway signs, a rotary, and even parking a real car in Lobby 10 complete with a mock toll booth referencing the high cost of tuition.^[40]^[41] In 2014, for April Fools' Day, a satirical proposal circulated suggesting the installation of piezoelectric floor tiles along the corridor to harvest energy from footsteps and power LED lights, framed as an eco-friendly "Zero Footprint" moving walkway to enable safe texting while walking.^[42] During the 2000s, hacks included the 2005 "Mario Bros." installation, which overlaid the corridor with life-sized projections and props mimicking the video game level, complete with pixelated pipes and coins dangling from the ceiling to immerse passersby.^[43] Post-2020 examples include the 2022 "Openness Hack" in adjacent Lobby 7, where a black stripe was added to obscure the word "openness" on an official banner, subtly critiquing institutional transparency in a nod to MIT's hacking tradition.^[44] In 2023, the "Duke Sally" hack featured a banner on Building 7 and a welcome sign in Lobby 7 honoring a fictional figure, continuing the tradition of whimsical displays in high-traffic areas near the corridor.^[45] These pranks often cause brief, temporary disruptions but are celebrated for balancing whimsy with engineering prowess, fostering community spirit without lasting alterations.^[46] Many such hacks are meticulously documented in the IHTFP Hack Gallery, a student-maintained online archive that preserves photographs, write-ups, and historical context to honor MIT's prank culture.^[38] Safety remains paramount, with guidelines stipulating that hacks must avoid property damage, personal injury, or obstruction of emergency access routes like the corridor.^[46]

Displays and Murals

The walls of the Infinite Corridor feature a variety of permanent and semi-permanent visual exhibits that reflect MIT's academic and cultural environment. During the 2010 renovations at the eastern end of the corridor, particularly at the junction of Buildings 4 and 8, cinderblock walls and closed doors were replaced with floor-to-ceiling frosted glass panels, allowing passersby to view ongoing research activities in adjacent laboratories such as the Laboratory for Advanced Materials.^[11] These glass-walled spaces provide glimpses into interdisciplinary projects in materials science and engineering, enhancing the corridor's role as a dynamic pathway through campus innovation.^[11] Bulletin boards line much of the Infinite Corridor and its adjoining areas, serving as key venues for departmental and student group announcements. Managed by the Association of Student Activities, these boards are allocated biennially to registered student organizations for posting event promotions, job opportunities, and community updates, ensuring a steady flow of timely information for the thousands of daily pedestrians.^[47] Groups are required to maintain their assigned spaces by keeping postings current and including contact details, with policies prohibiting obstructions to traffic flow.^[47] Historical plaques are prominently displayed in Lobby 10, located along the corridor beneath the Great Dome. In 2013, the space was renamed Memorial Lobby to honor MIT alumni who died in military service, with its walls bearing engraved lists of those lost in World War I, World War II, the Korean War, and the Vietnam War.^[12] This dedication underscores the corridor's role in commemorating institutional history, and the lobby hosts annual events like ROTC vigils to maintain its significance.^[12] To support ongoing content freshness, the corridor incorporates digital displays as part of the Infinite Display system, which projects event promotions and institutional messages on screens and projectors integrated into high-traffic zones.^[48] These electronic exhibits, including two projectors specifically in the Infinite Corridor, cycle content briefly to engage users without overwhelming the space, adhering to MIT's branding guidelines for clarity and relevance.^[48]

Scientific and Educational Features

Infinite Solar System Model

The Infinite Solar System Model is a scale representation of the solar system installed along the third-floor east-west path of MIT's Infinite Corridor, designed to convey the immense distances and relative sizes within our cosmic neighborhood. Created by planetary scientist Richard P. Binzel, a professor in MIT's Department of Earth, Atmospheric and Planetary Sciences, the exhibit was unveiled on November 9, 2018, coinciding with the MIThenge solar alignment event.^[49]^[27] Spanning approximately 200 meters from Lobby 7 in Building 7 to the western end near Building 8, it uses a uniform scale of 1:30,000,000,000, where the entire distance from the Sun to Pluto fits the corridor's length. This placement on the upper level takes advantage of the straight, unobstructed layout, allowing visitors to walk the model's full extent without interruptions.^[50] At this scale, the Sun is represented as roughly the size of a grapefruit, positioned at Lobby 7, while Pluto appears as a tiny peppercorn at the corridor's west end, emphasizing the vast emptiness of space. The installation features 14 informational plaques, each accompanied by 3D-printed spherical models approximately 4.3 cm in diameter for visual uniformity, depicting the Sun, the eight planets, and dwarf planets including Ceres, Pluto, Haumea, Makemake, and Eris, with additional markers highlighting the asteroid belt between Mars and Jupiter, select major moons such as Jupiter's Galilean satellites and Saturn's prominent ones, the Kuiper Belt, and the Oort Cloud; plaques provide key facts on diameters, orbital distances, and compositions scaled to the model's ratio. For instance, Earth is about 5 meters from the Sun model, underscoring how even inner planets are separated by significant scaled distances.^[49]^[27]^[50] The primary educational objective of the model is to illustrate the profound scale of the solar system, helping students and visitors grasp concepts that are otherwise abstract and difficult to visualize through traditional diagrams or lectures. Binzel developed the exhibit as an extension of classroom activities in his planetary science courses, where students calculate scaled distances to appreciate interstellar vastness, and it now serves as a hands-on tool for astronomy tours, outreach events, and self-guided explorations. Guided tours led by Binzel himself continue to draw participants, fostering enthusiasm for space research by connecting the corridor's familiar environment to cosmic realities.^[49]^[27] Minor updates to the plaques have been made to incorporate new astronomical discoveries, such as refinements to Pluto's system based on data from the New Horizons mission, including details on its surface features and moons. These enhancements ensure the model remains a current resource for education, without altering the core scale or physical layout.^[27]

Physics Demonstrations

The Infinite Corridor's straight, unobstructed 251-meter length makes it suitable for hands-on physics demonstrations focused on wave propagation and fundamental constants, particularly in optics and acoustics. Students and instructors have utilized the space for experiments that leverage its scale to achieve measurable results without specialized long-path facilities. These activities are often integrated into introductory physics laboratories, where safety protocols, such as eye protection for laser use and coordination to minimize pedestrian interference, are strictly enforced to ensure participant safety.^[5] One prominent example involves demonstrating the speed of light using a strobe light, photocell, and oscilloscope positioned at one end of the corridor to measure the time for light to travel to the far end and back, providing direct empirical evidence of light's velocity in vacuum. The theoretical time t for this round trip is calculated as

t = \frac{2d}{c},

where d = 251 m is the corridor's length and c = 3 \times 10^8 m/s is the speed of light. To arrive at the solution, first compute the one-way time d/c = 251 / 3 \times 10^8 \approx 8.367 \times 10^{-7} s, then double it for the round trip: t \approx 1.67 \times 10^{-6} s, or 1.67 microseconds. This duration is short enough to resolve with standard undergraduate equipment, allowing students to verify the value against known constants and discuss relativistic implications.^[5] Additional demonstrations exploit the corridor for acoustic experiments, such as measuring the speed of sound through echoes generated by sharp claps or starter pistols at one end, with timing the return signal after reflection off the far wall. These setups typically yield speeds around 343 m/s at room temperature, illustrating principles of wave reflection and medium dependence without complex apparatus. In the connected lobbies, gravity's effects are explored via pendulum swings, where bob release from varying heights demonstrates conservation of energy and the independence of period from amplitude for small oscillations.

Astronomical Phenomena

MIThenge Event

The MIThenge event takes place twice each year, around November 9–13 and January 27–31, when the setting sun aligns precisely with the east-west axis of MIT's Infinite Corridor, illuminating its entire 251-meter length with direct sunlight. This alignment occurs because the corridor's straight-line geography runs due east-west, allowing the sun's path to match its orientation during these periods. The phenomenon is best observed for about two minutes, depending on atmospheric conditions, and requires eye protection such as filters to safely view the sun.^[5]^[51] The event's history traces back to fall 1975, when Tom Norton, an architecture research affiliate at MIT, noticed reports of sunlight flooding the corridor and collaborated with students Timothy E. Johnson and Sean Wellesley-Miller on calculations for a class project. Norton named the alignment "MIThenge" by analogy to Stonehenge and created posters featuring the students' computations and a silhouette inspired by photographer Harold "Doc" Edgerton to publicize the next occurrence, leading to the first organized viewing in January 1976. Subsequent refinements, including azimuth corrections by Ken Olum in 1997, have ensured accurate predictions through 2100.^[52]^[53] During MIThenge, crowds typically gather at the west end of Building 8 on the third floor or in adjacent stairwells to witness the sunlight streaming through the full corridor length, with photography and videography being popular activities to capture the striking visual effect. These gatherings promote community engagement among students, faculty, and staff, often featuring organized receptions with refreshments and hot drinks hosted by groups like MIT's MindHandHeart initiative. For example, the 2023 November event included multiple viewing sessions followed by snacks and a closing reception, drawing significant attendance even in suboptimal weather. The November 2025 event, planned for November 10–12, was canceled due to cloud cover.^[54]^[55]^[56] Exact timings for each MIThenge are determined by computing the sun's azimuth relative to the corridor's fixed 245.81-degree orientation from true north, accounting for slight annual shifts caused by Earth's 23.44-degree axial tilt and elliptical orbit around the sun. These calculations distinguish between "low pass," "mid pass," and "high pass" alignments, with the mid-pass day offering the optimal visual experience. Updated predictions are shared via MIT's dedicated MIThenge website to guide observers.^[5]^[57]^[51]

Seasonal Solar Alignments

Due to MIT's location at approximately 42.36°N latitude, the sun's annual path results in its azimuth crossing the Infinite Corridor's east-west axis twice yearly, on dates adjacent to the winter solstice period.^[58] This alignment occurs because the corridor's bearing, roughly 90° east-west with a precise westward azimuth of about 245.81°, matches the sun's position at sunset during these times. The phenomenon, known as MIThenge, briefly illuminates the entire 251-meter length of the corridor from the eastern end.^[10] The full cycle of illuminations includes brief full traversals of sunlight in mid-November at sunset and late January at sunset, lasting about 2 minutes under clear conditions when the sun's center aligns precisely with the corridor's axis. Around these peak dates, partial alignments occur over several days, with the sun's lower or upper limb crossing the axis, resulting in incomplete but notable illuminations of the reflective floor and walls. For 2025, ephemeris calculations predict optimal full alignments on November 9 (high pass) and January 29 (high pass), with partial views on adjacent days like November 10–11 and January 28 and 30. These predictions rely on solar declination and azimuth data, accounting for the sun's 0.5° angular diameter and atmospheric refraction effects, derived from standard astronomical software and observations.^[51] The mechanics involve the sun's declination reaching values where its sunset azimuth equals the corridor's 245.81° orientation, a configuration unique to mid-latitudes like Boston's. No complex derivations are needed beyond ephemeris tables from sources like the U.S. Naval Observatory, which provide precise times based on the observer's coordinates and the corridor's measured extent.^[51] Partial alignments in the cycle, such as lower-limb passes, extend visibility but limit full illumination due to the sun's partial occlusion by the horizon or building edges. These solar events enhance natural lighting within the corridor, temporarily reducing reliance on artificial sources during late afternoon hours. The corridor's fixed architecture ensures alignment stability for decades, with astronomical predictability maintaining consistent dates; minor shifts in observation times by 2050 could arise from long-term axial precession, though less than 1 minute annually. Popular MIThenge celebrations highlight these November and January events.^[10]

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[PDF] Campus Walking Tour | MIT Admissions
Memorial Lobby (Lobby 10), located off the corridor, honors alumni who ... Meejin Yoon, the memorial is a space of reflection for the MIT community.
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Students study MIT's central artery
Aug 27, 1997 · "Almost everyone in the MIT community uses the Infinite Corridor, but some, by the very nature of their schedules, use it much more than others.Missing: users | Show results with:users
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Driving On The Infinite | MIT Admissions
Aug 9, 2007 · If the Infinite is crowded, consider the center line a double-yellow line. Do not merge into oncoming traffic for any reason. You will get run ...Missing: etiquette | Show results with:etiquette
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MIT announces plans for fall 2020 semester
including use of the Broad Institute to process Covid-19 test ...Missing: adaptations | Show results with:adaptations
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IHTFP Hack Gallery: Welcome to the IHTFP Gallery! - MIT
The IHTFP Gallery is dedicated to documenting the history of hacking at MIT. The word hack at MIT usually refers to a clever, benign, and "ethical" prank or ...Chronology · Hacks by Location · Rubik's Cube · Diamond RingMissing: Infinite Corridor AR overlays
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Hacks In Lobby 7 and the Infinite Corridor - IHTFP Hack Gallery - MIT
It is a large, open, four-story-high space with a skylight at the top. The Infinite Corridor is a 775-foot-long hallway that stretches Eastward starting at ...
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A Hackers' Reunion | MIT Technology Review
Oct 1, 2005 · ... Infinite Corridor into the “Mass. Toolpike” (“tool” being an MIT term for studying really hard) with a $16,000 toll (the cost of tuition).
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Leaving 'Zero Footprints' in the Infinite Corridor | alum.mit.edu
Apr 1, 2014 · Beginning in 2015, portions of the corridor will include a moving walkway, called Zero Footprint, which will allow members of the MIT community to safely text, ...
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https://hacks.mit.edu/Hacks/by_year/2005/mario_bros/
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Hacks, tomfoolery & pranks - MIT Admissions
At MIT, 'hacks' are safe, stealthy pranks that must not damage property or people, and provide joy. They are subtle, and never done alone.
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ASA Private Postering Boards - Association of Student Activities
The ASA administers the bulletin board space in the infinite corridor (and adjoining areas) that are designated for student group use by the Campus Activities ...Missing: social impromptu
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Infinite Display | MIT Copytech
Infinite Display enables the MIT community to promote events and publicize messages using digital displays located around campus.<|control11|><|separator|>
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Corralling the cosmos in the Infinite Corridor - MIT Technology Review
Oct 24, 2019 · How MIT's Infinite Solar System display brings the universe down to Earth. ... modeling guru Arthur Lue, the installation came to life.
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Pluto's Small Moons Are Unlike Any Other - Eos.org
Dec 10, 2024 · Two of Pluto's small moons, Nix and Hydra, have surface compositions unlike any TNO studied thus far.Missing: MIT infinite
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https://news.mit.edu/2018/mit-infinite-corridor-solar-system-1116
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Using sound to model the world | MIT News
Nov 1, 2022 · Scientists at MIT have developed “a machine learning model that can capture how sounds in a room will propagate through space,” report Kyle ...
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MIThenge - Alan Eliasen
On August 27, 2007, using these predictions, a team successfully observed and photographed a moon alignment with the Infinite Corridor! ... mithengemoon - ...
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How MIThenge Got Its Start | alum.mit.edu
Jun 30, 2011 · A Sky and Telescope article traces the origins of MIThenge to the fall of 1975 when then architecture research affiliate Tom Norton heard ...
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[PDF] Sky & Telescope
Nov 11, 2003 · MIT's celebrated Infinite Corridor (highlighted) runs through five buildings, collectively known as MIT's main building. The view here looks ...
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Fun & Culture - MIT Facts
MIThenge. The Infinite Corridor runs through the center of MIT's campus, connecting its east and west sides. Twice a year, an astronomical event lights up ...Missing: sequence | Show results with:sequence
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MITHenge occurred from Nov. 10 to Nov. 13 - The Tech
Nov 15, 2023 · MITHenge occurred from Nov. 10 to Nov. 13. During MITHenge, the setting sun aligns with the Infinite Corridor's entire length, a hallway approximately 823 feet ...
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Post MIThenge Reception - Events Calendar
Join MHH in the Bush Room right after MIThenge for some refreshments and hot drinks! This reception will be held regardless of cloudy weather.
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https://www.dickkoolish.com/rmk_page/mithenge.html
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Massachusetts Institute of Technology, MA, USA
The latitude of Massachusetts Institute of Technology, MA, USA is 42.360001, and the longitude is -71.092003. Massachusetts Institute of Technology, MA, USA is ...
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MIThenge: Designed by Druids? | MIT News | Massachusetts ...
Nov 7, 2003 · When the path of the sun crosses the axis of the Infinite Corridor--a hallway that runs 825 feet and traverses five buildings between Building 7 ...