The Quanser Shake Table I-40, an open architecture bench-scale single-axis earthquake simulator, is ideal for teaching structural dynamics and control, earthquake engineering, and other control topics related to civil engineering. With pre-loaded acceleration profiles of real earthquakes, such as Northridge and El-Centro, students can study the effects on buildings, bridges, and various materials.
Quanser's Mobile Robotics Engineering Lab Equipment encompasses an array of cutting-edge tools designed to elevate the educational experience in robotics engineering. From the innovative Quanser QBot 3, an open-architecture autonomous ground robot built on a 2-wheel mobile platform, to a comprehensive suite of sensors, vision systems, and adaptable courseware, this collection offers a dynamic platform for both undergraduate and advanced studies in robotics and mechatronics.
Professors benefit from the modular nature of the laboratory exercises, enabling seamless integration into existing courses or creating new curricula. Additionally, the platform's versatility extends beyond academia, providing a robust foundation for research in fields such as autonomous vehicle control, machine learning, computer vision, and multi-agent heterogeneous and swarm robotics. Quanser's Mobile Robotics Engineering Lab Equipment empowers students and researchers alike to explore, innovate, and excel in the dynamic realm of robotics.
Quanser’s expansive range of engineering teaching equipment offers the fastest and easiest way to meet academic objectives for teaching and research.
Credible, interactive virtual hardware experiences
The only scalable way to deliver meaningful, high-fidelity virtual hardware experiences to students via desktop or smart devices.
The Quanser Interactive Labs platform is a collection of virtual hardware-based laboratory activities that supplement traditional or online courses. The virtual plants are based on Quanser physical systems and offer credible, academically appropriate hardware experiences on desktops, laptops, or smart devices. Combining Quanser Interactive Labs with actual Quanser systems allows instructors to enrich their lectures and activities in traditional labs and increases engagement and students’ learning outcomes in class-based or online courses.
Rich interactive experiences for the lecture and the lab
Leverage Quanser Interactive Labs not only to offer students credible lab activities accessible off-campus but integrate them into your lectures and bring even more interaction and engagement to your course material.
A turn-key cross-platform solution
Quanser Interactive Labs’ virtual high-fidelity plants give students academically appropriate hardware experiences on Windows, macOS, iOS, and Android. Labs come with a complete student curriculum, including “check your understanding” and full assessment questions and lab reporting. Instructors have access to additional free course resources and tools to manage student access and monitor their progress.
Scalable solutions for teaching and research
Quanser Interactive Labs are stand-alone applications available as a 12-month subscription and can be licensed by institutions for their students or purchased directly by students.
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The Quanser Shake Table II is a mid-size open-architecture single-axis earthquake simulator ideal for teaching structural dynamics, vibration isolation, feedback control, and other control topics related to earthquake, aerospace and mechanical engineering.
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The Shake Table II XY consists of two single-axis Shake Table II units mounted perpendicularly on top of each other. Each stage can travel ±7.6 cm. Driven by powerful motors, the Shake Table II XY can achieve an acceleration of 2.5 g when loaded with a 7.5 kg mass.
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Item Number:ST4484Shear Force This kit allows students to apply loads to hangers suspended along a beam, held between two supports. One support allows rotational movement, acting as a pinned support, whilst the other ...
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Item Number:STS3 - ExperimentTecQuipment's Shear Force in a Beam (Next Generation Structures) illustrates and proves the basic theory of shear force in a beam. The experiment mounts on the Structures platform and connects to the Structures automatic data acquisition unit and software.
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Item Number:TM161Experiment for studying simple harmonic motion and the factors that affect the period of oscillation of pendulums. Fits on to the Free Vibrations Test Frame.
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Item Number:ES7 - ExperimentTecQuipment's Simple Harmonic Motion Kit (ES7) includes different pendulums and a spring to show students the principles and uses of simple harmonic motion.
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Item Number:ES14 - ExperimentTecQuipment's Simple Mechanisms Kit (ES14) demonstrates how the scotch yoke, crank and slider, and quick return mechanisms convert motion.
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Item Number:STS19 - ExperimentTecQuipment's Simple Suspension Bridge (Next Generation Structures) experiment is for the study of the characteristics of a simple suspension bridge. It mounts on the Structures platform and connects to Structures automatic data acquisition unit and software.
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Item Number:TD200 - Base UnitTecQuipment's Small Engine Test Set versatile engine testbed with instrumentation to provide the facilities to investigate the operating characteristics of single-cylinder and four-stroke internal combustion engines.
