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A flip chart

A flip chart is a stationery item consisting of a pad of large paper sheets. It is typically fixed to the upper edge of a whiteboard, or supported on a tripod or four-legged easel. Such charts are commonly used for presentations.

Forms

[edit]

Flip-charts are available with various supports:

  • metallic tripod (or easel) stand: the commonest support. Usually has 3 or 4 metallic legs that are linked together at the end. A support board is attached to two of these legs to support the large paper pad.
  • stand-alone flip chart: resembles a big isosceles triangle box that usually sits on a table. Imagine a book that you would open at 270° angle and then lay on a table. The paper is flipped from one side of the top of the triangle box to the other.
  • metallic mount on wheels: usually has a flat base to support the paper pad and is mounted on one or two legs that have wheels, making it easy to move the flip chart.

Usage

[edit]

Text is usually hand written with marker pens and may include figures or charts. A sheet can be flipped over by the presenter to continue to a new page.

Some flip charts may have a reduced version of the page that faces the audience printed on the back of the preceding page, making it possible for the presenter to see the same thing the audience is seeing. Others have teaching notes printed on the back.

Flip charts are used in many different settings such as:

  • in any type of presentation where the papers pads are pre-filled with information on a given topic
  • for capturing information in meetings and brainstorming sessions
  • in classrooms and teaching institutions of any kind
  • to record relevant information in manufacturing plants
  • a creative drawing board for Art students
  • a palette for artists in “life-drawing” classes
  • for strategy coaching for sports teams
  • for teaching

A variety of paper sizes are used from the floor standing through to the smaller table-top versions, subject to the country's adopted paper sizes. These include A1, B1, 25" x30" through to 20" x 23".[1][2]

History

[edit]

The earliest known patent of a flipchart is from May 8, 1913.[3] Flip charts have been in use since the early 20th century; the earliest recorded use is in a photograph from 1912 of John Henry Patterson (1844-1922), NCR's CEO, addressing the 100 Point Club standing next to a pair of flip charts on casters.[4] The flipchart we know (on a small whiteboard) was invented by Peter Kent in the 1970s. Peter Kent was the founder and CEO of the visual communications group Nobo plc, and it is believed[by whom?] that they were the first company to put the large pieces of paper over whiteboards, rather than over other materials.[citation needed] In 1999, Flipcharts2go.com went online offering wide format, custom printed and bound flipcharts for both short term and long term use in planning, sales presentations, training and production tracking.[5]

Digital

[edit]

Recently,[when?] scientists have developed a digital self writing flip chart which writes word for word everything it is instructed to record. The disability action group "Armless" has stated that this is a significant step forward for disabilities groups to have conferences like people without disabilities. Also available are flipchart stands that are self heightening.[citation needed]

References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Flip chart

View on Grokipedia
from Grokipedia
A flip chart is a presentation aid consisting of a pad of large sheets of or cardstock bound together at the top edge and mounted on an or stand, allowing successive pages to be flipped over to reveal new information, illustrations, or notes during talks, meetings, or lessons. Flip charts emerged as a tool in the early and gained widespread adoption for their low-cost, interactive nature, with the contemporary version—featuring a pad on a small base—invented by in the 1970s to aid his own . They remain popular in business, education, and facilitation settings due to advantages like promoting real-time collaboration, encouraging audience participation, and enabling spontaneous idea capture without reliance on or complex . Key applications include brainstorming in workshops, where facilitators use them to list ideas or action items; displaying agendas and visual aids in meetings; and supporting in classrooms by allowing students to engage with content interactively. Flip charts come in various formats, such as traditional pads for with markers, self-standing models for portability, and modern digital versions that replicate the flipping action on screens for hybrid environments. Their enduring appeal lies in fostering dynamic communication while being adaptable, budget-friendly, and effective for diverse group sizes.

Introduction

Definition and Purpose

A flip chart is a item consisting of a pad of large sheets bound together at the top and mounted on a stand or , allowing users to write, draw, or display information during interactive sessions. This setup enables the sequential revelation or concealment of content by turning pages, making it a versatile tool for dynamic visual aids in group environments. The primary purposes of a flip chart include facilitating presentations by illustrating key points in real time, supporting brainstorming sessions through collaborative idea capture, and aiding note-taking to record discussions or agreements during meetings. It promotes real-time idea generation in group settings by allowing participants to contribute visibly and iteratively, fostering engagement without reliance on digital infrastructure. Key characteristics of flip charts emphasize their reusability through page flipping, which permits revisiting previous content easily; high visibility from a distance due to the large sheet format, ideal for audiences of up to 35 people; and low-tech , requiring no or technical setup compared to projectors or digital screens. Standard sizes, such as A1 (594 x 841 mm) or approximately 25" x 30", ensure optimal group viewing by providing ample space for legible writing and diagrams.

Basic Components

A traditional flip chart consists of three core components: a pad of large paper sheets bound at the top, an or stand for vertical support, and writing tools such as thick markers suitable for paper surfaces. The pad typically contains 20 to 50 sheets of oversized , often measuring around 25 by 30 inches, designed for visibility in group settings. The provides a stable frame, usually on a base, to hold the pad upright, while markers ensure clear, bold writing that can be seen from a distance. These components interact to facilitate sequential display and annotation: the pad is clamped or hooked to the top of the easel stand, allowing individual sheets to be flipped upward and over the top bar after use, revealing the next blank sheet. Many pads include a sturdy cardboard or chipboard backing for added structural support, which can be plain or feature a subtle grid pattern to aid in alignment during writing. This setup enables smooth page turning without disrupting the presentation flow, with the stand's adjustable height ensuring optimal viewing angles. Binding methods for the pad vary, primarily between spiral-bound and glued (adhesive top-bound) styles, each affecting . Spiral binding uses a coiled wire or through punched holes at the top, permitting pages to lay completely flat and flip independently with minimal resistance, which enhances ease during dynamic sessions. In contrast, glued binding secures sheets along the top edge with to a backing, offering a cleaner appearance but potentially requiring more effort to separate and flip sheets cleanly, especially if is present. Spiral-bound pads generally provide greater flexibility for frequent page manipulation, while glued versions suit applications where sheets are torn off and posted elsewhere. The basic setup process begins with assembling the stand by extending and locking its legs for stability on a flat surface. Next, the pad is attached by aligning its top binding with the stand's mounting bar and securing it using built-in clamps, hooks, or knobs to prevent slippage. Finally, writing surfaces are prepared by ensuring markers are uncapped and tested on a spare sheet, with the first page positioned forward for immediate use. This straightforward assembly typically takes under two minutes and allows for portable, on-demand .

History

Origins and Early Adoption

The flip chart emerged in the early as an innovative visual aid for presentations, particularly in business contexts. The earliest recorded use occurred around 1912, when John Henry Patterson, founder and president of the National Cash Register (NCR) Company, incorporated flip charts into sessions at the company's Sugar Camp facility near . Patterson, often regarded as a pioneer in modern salesmanship, utilized these devices to illustrate key points during lectures to agents, enhancing engagement and retention in outdoor tent settings. This application marked a shift toward more interactive and portable teaching tools in corporate environments. Shortly thereafter, formal recognition of the device came through a U.S. filed on May 8, 1913, by inventor Charles H. Thurber ( number US1087336A, issued February 17, 1914). The detailed a practical flip chart consisting of a bound pad of stitched sheets reinforced with cloth and grommets, mounted on a casing with forward-projecting hooks that allowed pages to be flipped sequentially for sequential display. Designed for durability and ease of use, the emphasized portability, enabling the chart to be hung on walls or stands without permanent fixtures, which addressed limitations of traditional blackboards in mobile settings. Flip charts saw initial widespread adoption in corporate and sales meetings during the , where they provided a versatile, portable alternative to cumbersome chalkboards. At NCR, under Patterson's leadership, they facilitated exercises and scripted demonstrations, contributing to standardized sales techniques that boosted efficiency and performance among representatives. This business-centric use underscored the tool's value in dynamic, non-fixed environments like conventions and field . Flip charts had been used in educational settings since at least 1901, as seen in the Caxton Curriculum Charts, which were large flip-over visual aids for subjects like and arithmetic. By the 1920s, they continued to spread in classrooms for demonstrations, aligning with the post-World War I visual instruction movement that promoted industrial efficiency in through graphical aids. This era's emphasis on streamlined learning—reducing instructional time and costs through such tools—encouraged educators to adopt flip charts for illustrating concepts in , , and , fostering more engaging and practical methods amid broader societal pushes for modernization.

20th-Century Developments

In the mid-20th century, the invention of the in the late by photographer and engineer Martin Heit introduced dry-erase surfaces as a practical alternative to chalkboards, coinciding with increasing demand for reusable visual aids in professional and educational settings. This innovation influenced the evolution of presentation tools, including flip charts, by emphasizing erasable writing capabilities that reduced mess and improved efficiency during meetings and lectures. A pivotal advancement occurred in 1971 when , founder of the visual communications company Nobo, invented the world's first flip chart , which combined a pad of large sheets with an attached surface. This design allowed users to write on disposable pages for structured content while utilizing the reusable dry-erase board for spontaneous annotations, addressing limitations of earlier paper-only or fixed-board systems and standardizing flip charts as versatile devices. During the 1980s, flip charts gained widespread commercialization through manufacturers like Nobo, featuring standardized paper sizes such as A1 (594 x 841 mm) and lightweight portable stands with tripod or wheeled bases, facilitating easy transport and setup in offices and conference rooms. These enhancements made flip charts a staple for dynamic group interactions, as evidenced by their routine use alongside overhead projectors in corporate training sessions. By the , flip charts had become integral to global business practices amid the maturation of visual facilitation techniques, which emerged in the and emphasized real-time graphic recording on large pads to capture group ideas, fostering engagement in workshops and sessions. This adoption aligned with the broader shift toward team-based structures that prioritized collaborative .

Design and Materials

Stand and Mount Types

Flip chart stands and mounts provide essential physical support for displaying and interacting with flip chart pads in various settings. These structures vary in to accommodate different environments, from portable options for small groups to robust setups for larger presentations. Common types include stands, table-top easels, and wheeled floor mounts, each offering distinct advantages in stability, height adjustability, and mobility. Tripod stands typically feature three- or four-legged metallic frames constructed from lightweight aluminum or , allowing for easy transport and setup. These stands are height-adjustable, often extending up to 6 feet (approximately 1.85 meters), which enables comfortable viewing for standing audiences. Their foldable design weighs around 10 kg or less, making them ideal for on-the-go use in classrooms or meetings where space is limited. Rubber feet on the legs enhance grip on various surfaces. Table-top or stand-alone easels are compact alternatives designed for smaller settings, such as tables or desks, with triangular bases that provide a stable footprint without requiring floor space. These units are often under 2 feet (about 60 cm) tall, supporting lighter loads up to 5 pounds, and feature adjustable angles for optimal writing and viewing. Their lightweight construction, sometimes under 5 kg, prioritizes portability for individual or small-group use, folding flat for storage in briefcases or drawers. Wheeled floor mounts represent heavy-duty options equipped with casters, usually four to five in number, for seamless mobility across indoor spaces like large rooms. Made from durable frames, these stands adjust in height from about 4 to 6.5 feet (1.3 to 2 meters) and can support multiple pads simultaneously through extended arms or hooks. Lockable wheels ensure secure positioning during use, with some models weighing 15-20 kg to handle heavier displays without tipping. In terms of stability, tripod stands excel on uneven floors due to their adjustable legs and wide base, which distribute weight effectively and prevent wobbling during active writing sessions. Conversely, wheeled mounts offer superior navigation indoors on smooth surfaces, with their broader frames and locking mechanisms providing reliable steadiness for extended, high-traffic presentations.

Paper Specifications and Sustainability

Flip chart pads typically contain 40 to 100 sheets, with 40 sheets being a common standard for most professional and educational applications. Standard sheet sizes are typically A1 (594 × 841 mm; 23.4 × 33.1 inches) internationally and 27 × 34 inches (686 × 864 mm) in the US, though variations like 25 × 30 inches exist. The paper weight generally ranges from 70 to 80 grams per square meter (gsm), providing sufficient durability to withstand writing and flipping without tearing. Sheets are available in plain format for unrestricted drawing or with pre-printed grids and lines to enhance organization and versatility in note-taking or diagramming. To ensure compatibility with dry-erase markers, flip chart paper is engineered to be bleed-resistant, preventing from soaking through to subsequent sheets and maintaining clarity during presentations. Many include a sturdy backing to further minimize show-through and provide structural support when attached to stands. Sustainability efforts in flip chart production have gained prominence since the 2000s, with the introduction of pads made from 100% recycled paper to reduce reliance on virgin pulp and mitigate deforestation. This shift supports low-waste designs, as the reusable nature of flip chart stands allows pads to be replaced without discarding the entire setup, extending product lifespan. Many manufacturers now offer FSC-certified paper, ensuring sourcing from responsibly managed forests and promoting biodiversity conservation. While flip chart use has a relatively minimal environmental footprint compared to high-volume digital printing due to its low-energy analog process, concerns persist regarding the volatile organic compounds (VOCs) in traditional marker inks, which can contribute to indoor . Opting for eco-friendly, water-based markers and recycled pads helps address these issues, further lowering overall impact.

Applications

Business and Professional Settings

In business and professional settings, flip charts serve as versatile tools for facilitating collaborative brainstorming sessions, where they enable real-time diagramming and idea mapping during meetings. Participants can draw diagrams, list key points, and visually organize thoughts on large sheets, promoting active engagement and diverse input from team members. For instance, rotating flip charts are particularly effective in medium to large groups, allowing multiple to be captured simultaneously by positioning charts around and rotating participants. This method enhances group discussion quality by distributing the facilitation load and ensuring comprehensive idea generation. Flip charts are also widely employed in presentations and internal for delivering sequential content, such as step-by-step pitches or updates, by flipping pages to reveal progressively. This approach maintains focus through the physical act of unveiling new , making it ideal for outlining strategies, timelines, or metrics in corporate environments. In contexts, presenters use flip charts to illustrate persuasive points with simple visuals and annotations, fostering a dynamic that adapts to client feedback in real time. For updates, they facilitate clear communication of , action items, and decisions, often by summarizing discussions on the spot. Since the 2020s, flip charts have adapted to hybrid meetings by integrating cameras to share physical content with remote participants, bridging in-person and virtual without relying on digital platforms. Presenters position the flip chart within the camera's frame to display live drawings or notes, keeping both the and visuals visible to maintain relatability and human connection. This technique supports real-time interactions, such as prioritizing ideas via movable , and has proven effective for workshops and check-ins where dynamic, tactile elements enhance engagement over static slides. Key advantages of flip charts in professional use include their ability to foster through hands-on participation, requiring no electrical power for operation, and offering cost-effectiveness for small teams or sessions. Unlike digital tools, they provide a low-tech, portable alternative that encourages spontaneous contributions and immediate visual feedback, making them suitable for or client interactions where reliability and simplicity are prioritized. Their versatility in various meeting formats further underscores their enduring value in business contexts.

Educational and Training Environments

Flip charts serve as a versatile tool in demonstrations, enabling educators to illustrate abstract concepts in and through spontaneous hand-drawn examples, such as geometric shapes, algebraic equations, or biological diagrams, which help students visualize relationships and processes in real time. This approach allows for immediate adaptation to student questions, fostering a dynamic where visual cues reinforce theoretical explanations. In group activities, flip charts facilitate student-led brainstorming and feedback recording, particularly in workshops where participants rotate between stations to contribute ideas on flip chart sheets, ensuring inclusive participation and capturing diverse perspectives. For instance, learners can jot down responses to prompts, mark agreements with previous entries using dots or checks, and collectively refine concepts, which promotes collaborative problem-solving and deeper discussion among peers. Within programs, flip charts provide step-by-step guides for vocational skills development, as seen in education where they outline procedures like IV medication administration or insertion, bridging the gap between and clinical practice through structured visuals and photographs. Similarly, in areas such as sports coaching or classes, trainers use flip charts to techniques—like play formations or shading methods—allowing trainees to follow sequential instructions and practice alongside the visual aid. The benefits of flip charts in these settings include heightened student engagement, as interactive elements like drawing and group contributions encourage active participation and , particularly in or skill-based learning. Additionally, they aid memory retention by serving as visual reminders that reinforce key points through colors and images, improving recall during assessments or practical applications. This visual reinforcement not only supports comprehension but also accommodates diverse learners, including those with English as a , by simplifying complex information.

Modern and Digital Variants

Portable and Eco-Friendly Innovations

In the 2010s, manufacturers introduced portable flip chart designs featuring foldable stands and lightweight composite materials, such as aluminum and , to facilitate easy transport for traveling professionals and remote presentations. These innovations reduced overall weight—often to under 30 pounds—while maintaining structural integrity through powder-coated steel legs and collapsible bases, enabling quick setup in diverse settings like conferences or hybrid meetings. Eco-innovations in flip charts have focused on reducing environmental impact through biodegradable and recycled pads, alongside refillable marker systems that minimize . Brands like Post-it and Bi-Office produce pads from 100% post-consumer recycled , which resists marker bleed-through and supports without compromising usability. Refillable markers from edding Ecoline, made with at least 90% recycled , allow replenishment to extend product life and cut down on disposable barrels. Additionally, self-adjusting stands with height mechanisms enhance , accommodating users of varying statures by telescoping from 35 to 70 inches via simple collars or levers. Post-2020 market trends reflect heightened demand for these sustainable and portable options, driven by the rise of co-working spaces and setups amid hybrid professional environments. The global eco-friendly market, valued at USD 15 billion in 2024, is projected to grow at a CAGR of 8% through 2030, with 78% of North American consumers willing to pay premiums for recycled like flip chart pads. Examples include RHINO's recycled-content pads, crafted from 100% recycled paper sourced from sustainable European forests, which lower carbon footprints in production by reusing fibers and ensuring full recyclability. This shift aligns with broader efforts to integrate environmental responsibility into everyday office tools, as seen in the U.S. sector's emphasis on biodegradable and low- alternatives.

Digital Emulations and Interactive Alternatives

Software emulations of flip charts have emerged as versatile tools for virtual collaboration, replicating the tactile experience of physical pads through online whiteboards. Platforms like Miro offer an infinite canvas that allows users to create, flip through, and annotate digital pages in real-time, supporting remote teams with features such as multiplayer and structured formats like slides or diagrams. As of October 2025, Miro has launched AI collaboration tools for idea generation and workflow acceleration, serving over 100 million users across 250,000 companies. Similarly, provides an expansive infinite canvas for visual brainstorming, enabling seamless remote collaboration via integrations with tools like Zoom and , where users can add sticky notes, draw, and navigate multiple "pages" as in a traditional flip chart. 's AI features, updated in 2025, include automated content and idea summarization to enhance team efficiency. These software solutions facilitate asynchronous and synchronous work. Hardware alternatives, such as interactive smartboards, enhance flip chart functionality with touch-enabled interfaces that simulate page flipping and group interaction. The Flip series acts as a direct digital successor to physical flip charts, featuring a 55-inch or larger for writing, drawing, and flipping between unlimited digital pages, while supporting content and export to PDF or images for easy distribution. In 2025, new models like the Tacteasy 55” Interactive Digital Flip Chart introduced 4K UHD displays and advanced for improved collaboration. 3, an all-in-one digital , allows multi-user touch input with up to 20 simultaneous points on its 85-inch model, enabling natural inking, page navigation, and real-time annotations during meetings. These devices integrate with ecosystems like for hybrid setups, where content can be cast and edited across devices without physical limitations. In hybrid environments, digital emulations support cloud-based real-time sharing, annotations, and exports, bridging remote and in-person participants effectively. Tools like Miro and enable instant syncing of changes via , allowing annotations from multiple users and exports in formats such as PDFs or shareable links, which streamline post-meeting follow-ups. Compared to physical flip charts, these digital variants offer advantages including unlimited pages without paper constraints, embedding of like videos and images for richer content, and features such as text-to-speech, magnification, and color contrast adjustments to accommodate users with disabilities. This shift promotes and inclusivity, with studies noting up to 50% efficiency gains in collaborative processes.

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