The video claims to be a 3D printed infinite staircase, also known as the “Escherian Stairwell”, built in the 1960s by fictitious architect Rafael Nelson Aboganda. The video was revealed to be an internet hoax, with individuals traveling to the Rochester Institute of Technology to view the staircase. The Escherian staircase features in a drawing by M.C. Escher, which is a real drawing, and a three-dimensional version of the staircase exists. However, the video was revealed to be a clever hoax created through deceptive camera angles, careful editing, and digital effects. Fact-checking revealed that no physics-defying “Escherian Stairwell” exists in the real world, and the video was a clever hoax created through deceptive camera angles, careful editing, and digital effects.
📹 This Infinite Staircase is real, but it’s not what you think.
The other day I ran into a sketch of an “impossible staircase”, but nothing is impossible, not even making infinite stair cases …
Is The Staircase guy in jail?
Michael, who served 86 weeks in prison, was officially released in 2017 after serving more than that time. He currently resides in Durham, N. C., but has sold the house where Kathleen died, which was on the market for $1. 9 million. Michael had lived with his ex-wife, Patricia, for two years until her death from a heart attack in 2021. Defense Attorney David Rudolf said Michael is in a ground-floor apartment with no stairs.
Where is the never-ending staircase?
The Escherian Stairwell, also known as Penrose steps, is an impossible staircase designed by Filipino architect Rafael Nelson Aboganda at the Rochester Institute of Technology. It features four 90-degree turns as the stairs ascend or descend, creating a continuous loop that allows a person to climb them forever without increasing in height. The stairwell is located in Building 7 of the university’s Henrietta campus. A graduate student at RIT, Michael Lacanilao, created a video series, “Can You Imagine”, to showcase the fascinating facts, stories, and myths of RIT.
Is Penrose stairs 4D?
The Penrose Stairs, also known as the impossible staircase, is a two-dimensional staircase with four 90-degree turns that creates a continuous loop. This illusion is caused by perspective distortion, where the brain perceives the stairs as joined together despite the impossible nature of a 3D object. The leaning tower illusion occurs when viewing two identical photographs of the Leaning Tower of Pisa side-by-side, with the right photo appearing to have a greater tilt. This is because the brain creates a 3D image from a 2D photograph, causing the brain to mistakenly view them as diverging or spreading apart.
Optical illusions can also be caused by vision correction, so it’s crucial to schedule an annual comprehensive eye exam with an optometrist or ophthalmologist. The Eyeconic find an eye doctor tool can help you find a doctor if needed.
Do Penrose steps exist?
The Penrose stairs, also known as the impossible staircase, is a two-dimensional depiction of a staircase that makes four 90-degree turns as they ascend or descend, yet forms a continuous loop. This is impossible in three-dimensional Euclidean geometry but possible in some non-Euclidean geometry, such as nil geometry. The Penroses first presented the “continuous staircase” in 1959, based on the “triangle of Penrose” published by Roger Penrose in the British Journal of Psychology.
M. C. Escher discovered the Penrose stairs in 1960 and developed the theme further in his famous lithograph, Klimmen en dalen (Ascending and Descending). Penrose and Escher were informed of each other’s work in the same year, and Escher developed the theme further in his print, Waterval (Waterfall), in 1961. The Penroses noted that each part of the structure is acceptable as representing a flight of steps, but the connections are inconsistent, as the steps continually descend in a clockwise direction.
What are the stairs that go on forever?
The Penrose stairs, also known as the impossible staircase, is a two-dimensional depiction of a staircase that makes four 90-degree turns as they ascend or descend, yet forms a continuous loop. This is impossible in three-dimensional Euclidean geometry but possible in some non-Euclidean geometry, such as nil geometry. The Penroses first presented the “continuous staircase” in 1959, based on the “triangle of Penrose” published by Roger Penrose in the British Journal of Psychology.
M. C. Escher discovered the Penrose stairs in 1960 and developed the theme further in his famous lithograph, Klimmen en dalen (Ascending and Descending). Penrose and Escher were informed of each other’s work in the same year, and Escher developed the theme further in his print, Waterval (Waterfall), in 1961. The Penroses noted that each part of the structure is acceptable as representing a flight of steps, but the connections are inconsistent, as the steps continually descend in a clockwise direction.
Is The Staircase real or acted?
The Staircase is an American biographical crime drama television miniseries based on the 2004 true crime docuseries by Jean-Xavier de Lestrade. The series stars Colin Firth as Michael Peterson, a crime novelist accused of murdering his wife Kathleen Peterson (Toni Collette). The investigation and documentary focus on Peterson’s finances and personal life, with Toni Collette as Kathleen’s second wife and Caitlin’s mom. Michael Stuhlbarg plays David Rudolf, Michael’s lawyer, while Dane DeHaan portrays Clayton Peterson, Michael’s oldest son with legal issues from his past.
Olivia DeJonge plays Caitlin Atwater, Kathleen’s daughter, initially supporting her stepfather. Patrick Schwarzenegger plays Todd Peterson, Michael’s youngest son, and Sophie Turner as Margaret Ratliff, Michael’s adopted daughter. Rosemarie DeWitt plays Kathleen’s sister, Tim Guinee plays Bill Peterson, and Parker Posey plays Freda Black, a Durham county prosecutor. Juliette Binoche plays Sophie Brunet, the editor of the original documentary, and Vincent Vermignon plays Jean-Xavier de Lestrade, the director of the original documentary. The series premiered on HBO Max on May 5, 2022.
Is The Staircase all true?
The Staircase is an American biographical crime drama television miniseries created by Antonio Campos, based on the 2004 true crime docuseries of the same name created by Jean-Xavier de Lestrade. The series stars Colin Firth as Michael Peterson, a writer convicted of murdering his wife Kathleen Peterson ( Toni Collette ), who was found dead at the bottom of the staircase in their home. The series premiered on HBO Max on May 5, 2022. ( 1 )
Michael Peterson, a crime novelist, is accused of killing his wife Kathleen after she is found dead at the bottom of a staircase in their home. As the investigation continues, the family is thrown into a tumultuous legal battle. Meanwhile, a French documentary team takes an interest in the story.
- Colin Firth as Michael Peterson, a novelist and political hopeful living in Durham. His finances and personal life become the focus of the investigation and documentary.
- Toni Collette as Kathleen Peterson, his second wife and Caitlin’s mom. She was a high-powered executive and well-liked by her family and community.
- Michael Stuhlbarg as David Rudolf, Michael’s lawyer
- Dane DeHaan as Clayton Peterson, Michael Peterson’s oldest son from his first marriage who has his own legal issues from his past
- Olivia DeJonge as Caitlin Atwater, Kathleen’s daughter from her first marriage. She initially supports her stepfather.
- Patrick Schwarzenegger as Todd Peterson, Michael’s youngest son from his first marriage
- Sophie Turner as Margaret Ratliff, Michael’s adopted daughter, whom he adopted after her biological parents’ deaths
- Odessa Young as Martha Ratliff, Michael’s other adopted daughter
- Rosemarie DeWitt as Candace Hunt Zamperini, Kathleen’s sister
- Tim Guinee as Bill Peterson, Michael’s brother
- Parker Posey as Freda Black, a Durham county prosecutor
- Juliette Binoche as Sophie Brunet, the editor of the original documentary
- Vincent Vermignon as Jean-Xavier de Lestrade, the director of the original documentary
What are witches stairs for?
Witches’ stairs, also known as alternate-tread stairs, are used by architects to save space in small homes and tiny homes. The treads are half as wide as traditional steps, and they can be used for storage, bookcases, or display spaces. The idea of the alternative tread staircase is rumored to have been developed by Thomas Jefferson, but proof is difficult to find. The design for alternating tread staircases can be found in a book published in 1888.
Metal versions, called Lapeyre Stairs, were developed and patented in 1985 by J. M. Lapeyre for use in commercial and warehouse settings. This alternative tread design is also used on commercial ships and oil rigs with tight spaces.
What are witch stairs?
Witches’ stairs, also known as alternate-tread stairs, are used by architects to save space in small homes and tiny homes. The treads are half as wide as traditional steps, and they can be used for storage, bookcases, or display spaces. The idea of the alternative tread staircase is rumored to have been developed by Thomas Jefferson, but proof is difficult to find. The design for alternating tread staircases can be found in a book published in 1888.
Metal versions, called Lapeyre Stairs, were developed and patented in 1985 by J. M. Lapeyre for use in commercial and warehouse settings. This alternative tread design is also used on commercial ships and oil rigs with tight spaces.
What are the stairs that go back on themselves?
A switchback staircase is a 180-degree staircase with landings, creating a U-shaped stair layout. It is often referred to as a “staircase that turns” because the stairs turn at a 180-degree angle and double back on themselves. This type of staircase is ideal for multi-floor high-rises with limited square footage for transport between floors. It involves at least two flights of steps facing 180 degrees from each other with a landing platform in between.
The first flight of stairs is walked up, hit a landing platform, and then turns 180 degrees, facing the opposite direction before walking up the second flight of stairs. In most cases, an “U”-shaped stair has three flights and two platforms, turning 90 degrees at each platform, while two flights and one platform turn 180 degrees at the platform.
Is the stairs game real?
The video game Stairs draws inspiration from actual events and presents the player with the role of a disillusioned journalist seeking to gain traction in the industry. Three individuals have been reported missing from an abandoned industrial facility, and the game is available for use under the Creative Commons BY-SA 4. 0 license, unless otherwise noted.
📹 How Does a Real-Life Escherian Staircase Work?
In this video I show you a 3d printed infinite staircase also called an Escherian staircase after M.C Escher. I talk about how this …
Could you theoretically create a longer hallway at a much more mild angle making even the people going through it feel as if they are always going up. Like two stair sets on opposite sides of a “building.” It would be less immediately trippy, but a couple laps through mixed with not really getting anywhere would have a fun compounding effect.
it’s possible to build an infinite hallway, but it’d take up a TON of room: my original idea was thousands of rooms, each room points only 1/8th of an inch or less to the left each time thus hiding the fact that it’s actually just a circle. But then I realized we can just make a hallway that wraps around earth and call it a day.
Escher is probably my favorite artist and I love what you did in this. I also love your acting over your voice instead of talking to the camera. Such a great way to present your info uniquely. Sorry I’m 2 years late on seeing this. Been busy trying to grow my own website while raising a family and navigating really rough times….etc etc.. life. Keep up the great work! Looking forward to more.
In 1991 a mate of mine made a balsa wood model of the MC Escher staircase using false perspective, it was to do stop frame animation over for the titles to a French game show. He’d just finished it when the phone rang “Destroy it!!!” It turns out the copyright was £1,000 per second so that’d be £30k every time the titles rolled! He kept it, it was on his music room wall 😀
In terms of perception, because it is a spiral but at an angle the Leaning Tower of Pisa gives a strange experience of going both down and up at the same time, particularly when you’re going down. They even give a warning that it can induce motion sickness. That’s the closest in real life I think I’ll ever come to an Esher staircase.
i watched you’re article yesterday and it got me thinking, maybe you did your 3d model wrong. instead of a slant or hill, why not use 2 other sets of stairs instead. doing this would work as it would solve the problem of the angle you would need if you were to go with a slanted platform, while thus creating a never ending stairs. granted, there would of course, be a point of entry, but the stairs themselves would never reach a destination as they would always lead to the other set of stairs. it wouldn’t be the illusion that you were going after, but it would be a physical build of the forever stairs.
you could built a little 3D model of these stairs on a rubiks cube. You gotta take the cube hold it with one side facing you, rotate the each strip by a small angle keeping the same face towards you, then turn the cube to the right and rotate each strip by roughly the same angle in the same direction ( if you did the first side facing you upwards then do the second side upwards to ). Now if you view it from the sides and follow the “steps” you’ll notice they always seem to ascend or descend
The illusion at 1:39 is actually a room who has one of its corners farther than the other from the camera…Here the left one is father..but it should look short right? They increased the height of it to give it an equal size look…And when the person goes to the left corner,he is actually going far away from the camera..oh,and forgot to mention,the right corner is really short and really near to the camera.. edit: oh you already discussed it already 😂 but i am honestly didn’t see the explanation later
You can mitigate the gradient if you build two slopes on the landings and increase the distance between stairs and using clever shading you can make it look almost flat. The movie “The Avengers” from 1998 built an infinite staircase to use in one of the scenes basically using shading and selected viewing angles.
You can build one of those. You just have to have enough room. The span of the stairway has to be a wider. It’s a hyperloop stairway. It’s almost the same way light travels. Monochromatic. But. With information inside of it. Like a burst of light. So the wider stairway you can get, you use more rails.
All you have to do it rotate the entire set so that the top and bottom platform are roughly horizontal with each other and the earth and have very little elevation and for the other factor you would have to put the stairs at uncomfortable angles and have people stand at an angle against gravity to give the illusion of them standing straight up
In Eshers pictures he has used 4 sets of stairs, yet here he’s gone for just 2. In someway wouldn’t it be better to have more sets or stairs? The angle of rise/fall could be distributed more evenly and seem less noticeable. Also, there are those weird streets that work as optical illusions where things look like they roll uphill due to the surroundings, so couldn’t this effect be applied also.
I am able to kind off get that we can build on this model by introducing a greater height difference on both the higher platform and lower platform, With which we’ll be able to show an actual staircase at the lower ‘stairs’ So the actual up and down motion would be managed by the two slopes at both the ends of the stairs (the platform) One platform would take us higher, from where we ‘go down the stairs’, and at the end of those, would be a platform which goes lower, from where we go up the stairs (With only one platform sloped, we get a straight line of stairs like in this article, I think)
I go to RIT and apparently they had to stop letting ppl into the Gannett building cause ppl would travel to RIT specifically to see the “magic stairs” and it got too congested for students 💀 tbh I didn’t know there was hype around it, I walk those stairs every day to get to class and they’re just regular stairs lol
what hurts my brain is the actual article of the guy walking up it and somehow ending up at the bottom. it seems almost impossible to walk an angle that steep.. like as soon as he went up the stairs and went around the wall he all of a sudden came around the same wall on the bottom flight of stairs instantly? like it involves a portal or something yk? i want to do it for myself to see what its like because i feel like he’s leaving something out.
As a useable infinite staircase that would work on someone using it like the article it might work with longer moving landings and painting that creates an illusion with the stairs tilted either way. There is a ride at 6 flags called Houdini’s house of illusion ( or something like that) it rocks back and forth but unbeknownst to the riders the interior walls start to move as well until it stops and it looks and feels like your completely upside down. I think the staircase can definitely be done The model doesn’t work because a real person would know their walking down a 45 degree angle on the landing.
The true problem of the beginning article is the discontinuity of the position, from left top of the image to the right bottom of the image, instead of whether a infinite 3d staircase is possible. The picture or article is recorded based on a 3d-2d transformation. This transformation is usually a projection transformation mixed with subtle fish-eye distortion if the lens is not calibrated perfectily. However, these transformations do not create discontinuity itself, which means if something is moving smoothly in 3d space, it should also move smoothly on the image plane, likely in a different direction. So it can be two persons in the first article, or the article is well edited, which produce the discontinuity in space.
I want to see someone build a hallway with the walls and ceiling angled so that when standing at one end the perspective angle is canceled out. Take whatever the angle is that they appear to converge at in a straight hallway, then build a hallway where they angle out and up that angle. Then have a look down the hallway from both ends. From the wide end it should seem to be a lot shorter than it is since the real angle of convergence would add to the apparent angle. But standing at the narrow end, what would it look like? That’d break your brain.
I think there is still a cleaner way to do this by making a slope at each end of the stair cases. It also looked like the sketch was a little fatter in the back end than it needs to be, and maybe not so many steps too. I think it is possible, just replace the straights with a slope on each end/start of the stairs. it would also help with the stairs not needing to be as extreme on one side to the other with two slopes.
Notice how this dude guy (and how phonologically interchangeable phonemes /r/ and /d/ are because of their points of articulation that you might see that the nominative might actually be actually read as something else) uses his phrases “I think” and “how you might not actually want to walk this staircase” but I beg the question what structure has this genius built so far that he may suggest we walk on?