Users can capture a photo of a handwritten or printed math problem using their smartphone camera, and the app automatically recognizes and solves it.
For each solved problem, the app breaks down the solution into individual, annotated steps, showing the mathematical rules and operations applied.
Provides a built-in keyboard and symbol palette for users to manually type or construct mathematical expressions and equations for solving.
Based on a solved problem or selected topic, the tool can generate similar practice problems for users to solve on their own.
Saves all solved problems in a user's history, allowing them to review past solutions, track the number of problems solved, and monitor learning progress over time.
A high school student struggling with algebra homework uses SnapXam to quickly solve complex equations by taking photos of problems from their textbook. The step-by-step explanations help them understand the solving process, allowing them to complete assignments accurately and learn the underlying concepts. This reduces frustration and improves self-study efficiency outside classroom hours.
A college student preparing for a calculus exam uses the app to review past topics by solving sample problems. The practice problem generator creates additional exercises on derivatives and integrals, enabling targeted practice. By reviewing saved solutions in their history, the student can identify recurring mistakes and solidify their understanding before the test.
Parents assisting their children with math homework but lacking expertise in advanced topics like trigonometry use SnapXam as a support tool. They can capture a problem, get a clear solution, and use the detailed steps to explain the concept to their child. This bridges knowledge gaps and enables effective parental involvement in education without requiring professional tutoring.
Teachers use SnapXam to quickly generate step-by-step solutions for problems they plan to present in class, saving preparation time. They can also demonstrate multiple solving methods during lessons using the app's explanations. Additionally, it serves as a resource for creating practice worksheets by generating similar problems for student exercises.
An adult returning to education or learning math for professional development (e.g., data science) uses SnapXam to brush up on foundational concepts. The app allows them to learn at their own pace, providing instant feedback and explanations for problems they encounter in online courses or textbooks. This supports continuous, independent learning outside formal educational settings.
Sign in to leave a review
3D Slash is a unique, block-based 3D modeling software designed to make 3D design intuitive and accessible for everyone, from children and educators to hobbyists and professionals. Inspired by the visual simplicity of retro video games, it uses a 'destruction' and 'construction' metaphor where users carve models out of a virtual block of material using tools like a hammer, chisel, and trowel, rather than manipulating complex vertices and polygons. This gamified approach significantly lowers the learning curve associated with traditional CAD software. It is widely used in educational settings to teach STEM concepts, design thinking, and spatial reasoning. Users can create models for 3D printing, game assets, architectural visualizations, and simple prototypes directly in a web browser or via desktop applications. The platform emphasizes creativity, speed, and fun, positioning itself as a bridge between playful digital making and practical 3D output.
Achieve3000 is an adaptive literacy platform designed primarily for K-12 education, focusing on improving reading comprehension and critical thinking skills. It uses proprietary AI and natural language processing to dynamically adjust the reading level of nonfiction articles to match each student's individual Lexile measure, a standard for assessing reading ability. The platform provides differentiated instruction by delivering the same core content at multiple reading levels, allowing all students in a classroom to engage with grade-appropriate topics while reading at their own level. It is widely used in schools and districts across the United States to support English Language Arts instruction, intervention programs, and college and career readiness. The system includes embedded assessments, writing prompts, and data dashboards for teachers to monitor student progress. By providing personalized, leveled content, it aims to accelerate literacy growth, particularly for struggling readers and English language learners.
Acuant is an AI-powered legal research and document analysis platform designed to assist legal professionals, such as lawyers, paralegals, and corporate counsel, in navigating complex legal information. It leverages advanced natural language processing and machine learning to parse vast databases of case law, statutes, regulations, and legal precedents. The tool helps users quickly find relevant legal authorities, analyze documents for key clauses and risks, and prepare for litigation or transactions. By automating time-consuming research tasks, Acuant aims to improve accuracy, reduce manual effort, and enable legal teams to focus on higher-value strategic work. It is positioned as a modern solution for law firms and in-house legal departments seeking to enhance productivity and decision-making through AI.
