Courses

RAHBME287 - Become an expert in Molecular Engineering- Rahsoft Biomedical Engineering Certificate What you'll learn: At the end of the course the student will have a top level understanding of Molecular EngineeringStudent will understand and learn in high level different concentrations in Biomedical Engineering Molecular Engineeringstudent will learn main key topics in each concentrationMultiplicity & Heat TransferOxidation-Reduction ReactionsAcid & Base EquationsProtein Folding Welcome to the Molecular Engineering course, brought to you by Rahsoft. In this course we will be going over the basics and fundamentals of molecular engineering and molecular theory, as well as in-depth examples and practice problems to give you a better understanding of the field. The course is taught by Dennis Fer, a Biomedical Engineering Instructor at Rahsoft, and the course advisor is Ahsan Ghoncheh, the Co-Founder and Technical Advisor at Rahsoft. We will be presenting this information to you in a way that is simple and easy to understand! Our course is aimed for engineers, science students, and others who are interested in learning more about molecular engineering, and how different molecules interact in various ways and phenomena in order to sense, observe, and determine various molecular topics within the field of biomedical engineering. Throughout the course, you will be given examples, practice problems and quizzes in order to not only allow you expand your knowledge on the material covered, but also to test what you learned in a way that is stress-free and effective! The course will begin with some basics in molecular engineering, followed by more in-depth technical aspects on how molecules interact, particularly with other molecules, energy, and heat. We will then look further into different types of energies molecules can interact with, such as potential energy, chemical energy, and voltage. Lastly, we will look into molecular interactions, and determine how molecules can not only recognize and interact with each other, but how the rate of molecular interactions can be changed in various ways. I want to thank you for choosing Rahsoft to teach you over this subject, and we will do everything we can to meet your needs and go further beyond. We are excited to help teach you more about the field of Molecular Engineering, and help you learn more and achieve your goals. If you have any questions, please feel free to contact us and we’ll be happy to help! Hope to see you soon, when you decide to take the course.

Explore the fascinating world of artificial organs and synthetic biomaterials in this 51-minute lecture from Yale University's Frontiers of Biomedical Engineering course. Delve into the body's immunological and scar healing responses to foreign materials, and learn about various polymer and plastic materials like Dacron and GORE-TEX. Discover the design and function of artificial organs, including lens implants, heart valves, vessels, hip replacements, dialyzers, heart/lung bypass machines, and artificial hearts. Gain insights into the challenges and areas for improvement in the field of biomedical engineering. The lecture covers topics such as introduction to biomaterials, polymers, coagulation and clotting threats, physical responses to biomaterials, joint replacement, dialysis, and concludes with a discussion on artificial organs.

RAHBME282 - Become an expert in Nanodevices & improve your Biomedical skills-Rahsoft Biomedical Engineering Certificate What you'll learn: Silicon & Introduction to MEMSMicrofabricationScaling LawMicrofluidicsElectro kineticsDNA SequencingElectrical TransducersFluorescenceOptical TransducersLight ScatteringMechanical TransducersNano biosensors Welcome to the Nanodevices course, brought to you by Rahsoft. In this course we will be going over the basics and fundamentals of nanodevices and nanosensors, as well as in-depth examples and practice problems to give you a better understanding of the field. The course is taught by Dennis Fer, a Biomedical Engineering Instructor at Rahsoft, and the course advisor is Ahsan Ghoncheh, the Co-Founder and Technical Advisor at Rahsoft. We will be presenting this information to you in a way that is simple and easy to understand! Our course is aimed for engineers, science students, and others who are interested in learning more about biomaterials, and how different materials work in various techniques and phenomena in order to sense, observe, and determine various nanoscale topics within the field of biomedical engineering. Throughout the course, you will be given examples, practice problems and quizzes in order to not only allow you expand your knowledge on the material covered, but also to test what you learned in a way that is stress-free and effective! The course will begin with some basics in nanodevices, followed by more in-depth technical aspects on how nanodevices are created, as well as specific tools and methods used. We will then look over some of the main transduction methods, such as electrical, optical, and mechanical transduction. Lastly, we will go in-depth on nanodevice biosensors, as well as some potential future applications. I want to thank you for choosing Rahsoft to teach you over this subject, and we will do everything we can to meet your needs and go further beyond. We are excited to help teach you more about the field of Nanodevices, and help you learn more and achieve your goals. If you have any questions, please feel free to contact us and we’ll be happy to help! Hope to see you soon, when you decide to take the course.

RAHBME220 - Become an expert in Biomaterial Engineering from Rahsoft Biomedical Engineering Certificate What you'll learn: a good understanding of BiomaterialsSilicon & Introduction to MEMSMicrofabricationScaling LawMicrofluidicsElectro kineticsDNA SequencingElectrical TransducersFluorescenceOptical TransducersLight ScatteringMechanical TransducersNano biosensors Welcome to the Biomaterials course, brought to you by Rahsoft. In this course we will be going over the basics and fundamentals of biomaterials, as well as in-depth examples and practice problems to give you a better understanding of the field. The course is taught by Dennis Fer, a Biomedical Engineering Instructor at Rahsoft, and the course advisor is Ahsan Ghoncheh, the Co-Founder and Technical Advisor at Rahsoft. We will be presenting this information to you in a way that is simple and easy to understand! Our course is aimed for engineers, science students, and others who are interested in learning more about biomaterials, and how different structures, materials, and objects interact with the body in order to create medical devices. Throughout the course, you will be given examples, practice problems and quizzes in order to not only allow you expand your knowledge on the material covered, but also to test what you learned in a way that is stress-free and effective! The course will begin with some basics in biomaterials, followed by more in-depth technical aspects on how biomaterials work, the forces and systems involved, and interactions with the environment. We will then present examples and more technical systems in the four main types of biomaterial structures: metals, polymers, ceramics, and composites. Lastly, we will go in-depth on biomaterial applications, and how they benefit various parts of our physiological systems. I want to thank you for choosing Rahsoft to teach you over this subject, and we will do everything we can to meet your needs and go further beyond. We are excited to help teach you more about the field of Biomaterials, and help you learn more and achieve your goals. If you have any questions, please feel free to contact us and we’ll be happy to help! Hope to see you soon, when you decide to take the course.

Explore cutting-edge biomedical engineering insights in this engaging speaker series presentation featuring Ronke Olabisi, Associate Professor of Biomedical Engineering at the University of California - Irvine. Hosted by the Grand Challenges Initiative at Chapman University's Schmid College, this hour-long talk delves into the latest advancements and research in the field of biomedical engineering, offering valuable knowledge for students, professionals, and enthusiasts alike.

RAHBME216 - Become an expert in Instrumentation of Biomedical Engineering - Rahsoft Biomedical Engineering Certificate What you'll learn: Introduction to InstrumentationSignals and Systems basicsData Acquisition SystemsCircuit Elements basicsIntegrated Circuit Components basicsLight detectionPulse Oximeters Welcome to the Introduction to Biomedical Instrumentation course, brought to you by Rahsoft. In this course we will be going over the basics and fundamentals of biomedical instrumentation, as well as in-depth examples and explanations of concepts to give you a better understanding of the field. The course is taught by Dennis Fer, a Biomedical Engineering Instructor at Rahsoft, and the course advisor is Ahsan Ghoncheh, the Co-Founder and Technical Advisor at Rahsoft. We will be presenting this information to you in a way that is simple and easy to understand! Our course is aimed for anyone who is interested in learning more about biomedical engineering and the instruments involved within the field, how it continues to grow, and the various concepts within the field that give you a better understanding of what biomedical instrumentation is. Throughout the course, you will be given examples and explanations in order to not only allow you expand your knowledge on the material covered, but also to test what you learned in a way that is stress-free and effective! The course will begin with some basics in biomedical instrumentation, followed by a review of signals and systems, as well as how to use data acquisition systems in relation to them. We will then look into some basic components of circuitry that are related to instrumentation, and then move onto more advanced components and theories involved within it. Lastly, we will have a look into a more specific concept of instrumentation: light detection, as well as its application in pulse oximetry. I want to thank you for choosing Rahsoft to teach you over this subject, and we will do everything we can to meet your needs and go further beyond. We are excited to help teach you more about the field of Biomedical Instrumentation, and help you learn more and achieve your goals. If you have any questions, please feel free to contact us and we’ll be happy to help! Hope to see you soon, when you decide to take the course.

Explore the cutting-edge field of tissue engineering in this 42-minute lecture from Yale University's Frontiers of Biomedical Engineering course. Delve into the role of tissue engineering in facilitating healing, tissue regeneration, organ replacement, drug delivery, and as a model for studying human physiology. Examine specific examples from current research at Yale, including the generation of neo-tissues from hydrogel scaffolds seeded with cells, spinal cord healing techniques, and methods for controlling mechanical properties of newly grown blood vessels. Learn about the use of synthetic materials in tissue engineering, the in vitro cultivation of replacement blood vessels, and the application of tissue engineering in drug delivery control. Gain insights into the current progress and future potential of this rapidly evolving field of biomedical engineering.

RAHBE101 - Rahsoft Biomedical Engineering Certificate Online Courses - Entry Level Physiology Anatomy & Biomechanics What you'll learn: At the end of the course the student will have a top level understanding of Biomedical engineeringStudent will understand and learn in high level different concentrations in Biomedical Engineeringstudent will learn main key topics in each concentration Welcome to the Introduction to Biomedical Engineering course, brought to you by Rahsoft. In this course we will be going over the basics and fundamentals of biomedical engineering, as well as in-depth examples and explanations of concepts to give you a better understanding of the field. The course is taught by Dennis Fer, a Biomedical Engineering Instructor at Rahsoft, and the course advisor is Ahsan Ghoncheh, the Co-Founder and Technical Advisor at Rahsoft. We will be presenting this information to you in a way that is simple and easy to understand! Our course is aimed for anyone who is interested in learning more about biomedical engineering, how the field continues to grow, and the various concepts within the field that give you a better understanding of what biomedical engineering is. Throughout the course, you will be given examples and explanations in order to not only allow you expand your knowledge on the material covered, but also to test what you learned in a way that is stress-free and effective! The course will begin with some basics in biomedical engineering and its history, followed by more in-depth looks into the anatomy and physiology of the human body. We will then look into basic biomedical instrumentation tools, as well as signal processing methods that allow for the data to be extracted and analyzed. Next, we’ll look into various imaging techniques, and then shift our focus into the basic concepts regarding the movement of the body, or biomechanics. Lastly, we will have an overarching look into biomaterials, which is the study of various materials that are used in a biomedical setting. I want to thank you for choosing Rahsoft to teach you over this subject, and we will do everything we can to meet your needs and go further beyond. We are excited to help teach you more about the field of Biomedical Engineering, and help you learn more and achieve your goals. If you have any questions, please feel free to contact us and we’ll be happy to help! Hope to see you soon, when you decide to take the course. Introduction to Biomedical Engineering is an Entry Level Course for people with no background in the Biomedical Engineering industryto have a crash course on fundamental topics existing in this broad field. This course is not intended to go deep into all topics as that would takes years of classes but would concentrate on fundamental subjects in each topic of Biomedical Engineering. At the end of this course you would know fundamental topics spoken in the industry, major companies as well as different fields and jobs in the Biomedical Engineering industry.We are constantly updating the course to have the below chapters. In this course the you we will not go into details but go over top level information needed for anyone who is interested in the Biomedical topic to understand different concentrations and topics on top level that exist in the field. We plan to create future courses based on student enrollment on the course and go into more details on the topics we are discussing in this course.This course was available for enrollment before but due to student feedback on the audio we ended up redoing the audio as well as the slides to give the students a better learning experienc eTopics below are discussed in this course on basic levelIntroduction to AnatomyIntroduction to BioinstrumentationIntroduction of the signal processingIntroduction to Biomedical Image ProcessingIntroduction to BiomechanicsIntroduction to Biomaterials

Explore the fundamentals of biomedical engineering in this 44-minute lecture from Yale University's Frontiers of Biomedical Engineering course. Delve into the dual aspects of the field: enhancing understanding of human physiology and developing innovative solutions for improved health. Discover the concept of homeostasis and the parameters involved in maintaining this crucial state. Examine the structure of phospholipids and their role in forming cell membranes. The lecture covers current biomedical engineering applications, future prospects, and surprising examples of the field's reach. Gain insights into basic physiological concepts and lipid structures, providing a comprehensive introduction to this interdisciplinary field.

Electronics & Biomed Engineering: Troubleshoot, Repair Medical Devices and Develop Solutions for Healtcare PROMO JUST.13 What you'll learn: Analyze and design electronic circuits for biomedical applications.Understand the principles and operation of various biomedical instruments.Troubleshoot and diagnose issues in electronic systems and medical devices.Repair and maintain medical equipment while adhering to safety guidelines.Apply digital electronics knowledge to program and control medical devices.Process and analyze biomedical signals using appropriate techniques.Identify and classify medical devices based on their functionalities and risks.Integrate electronics and biomedical concepts to develop innovative solutions.Communicate effectively with engineers and healthcare professionals in the field.Undertake hands-on projects, applying theoretical knowledge to practical applications. " ONE HOUR WORTH OF NEW CONTENT WERE ADDED UNDER THE SECTION (Diode Operation and Applications) " The course "Electronics in Biomedical Engineering: Theory & Repair" provides a comprehensive and immersive learning experience for individuals interested in the intersection of electronics and biomedical engineering. The content covers a range of essential topics, starting with the fundamentals of electronics components and circuits, ensuring students grasp the core principles.Moving forward, the course delves into the applications of electronics in biomedical instrumentation. Students will explore how various medical devices function, enabling accurate measurement and monitoring of vital signs and bioelectric signals. They will gain an understanding of sensors, transducers, and amplifiers used in medical devices and how to optimize their performance.A key focus of the course is troubleshooting methodologies. Students will learn structured approaches to diagnose and rectify malfunctions in electronic systems and medical devices. Practical skills will be honed in repairing and maintaining medical equipment, adhering to safety protocols to ensure proper functionality and patient well-being.The course also introduces students to the concept of digital electronics and microcontrollers. They will discover how these components play a vital role in medical device development, allowing for precise control and automation.Biomedical signal processing is another crucial aspect of the course, where students will learn how to analyze and process bioelectric signals. Understanding signal processing techniques will enable them to extract valuable information from biomedical signals, crucial for medical diagnosis and research.Furthermore, the course presents an overview of medical device technology and classifications. Students will become familiar with the regulatory framework and safety standards guiding the design and use of medical devices.In addition to theoretical knowledge, the course emphasizes practical application. Students will engage in hands-on projects, integrating electronics and biomedical engineering principles to create innovative solutions for healthcare challenges.In summary, "Electronics in Biomedical Engineering: Theory & Repair" equips students with a diverse skill set, empowering them to excel in biomedical electronics. Whether pursuing careers in the medical device industry, healthcare settings, or research, students will be well-prepared to make a positive impact in this rapidly evolving field.

Explore the fascinating world of biomedical engineering in this introductory lecture from Yale University. Discover how this interdisciplinary field impacts daily life through various applications such as chest x-rays, PET scans, and gene chips. Compare living standards and medical technologies from past to present, highlighting the significant advancements and areas for improvement in biomedical engineering. Gain insights into the course syllabus, reading materials, and grading logistics while examining societal issues related to developing materials and devices in this field. Delve into topics including the history of engineering, disease control, and the future of biomedical technologies in this comprehensive 43-minute video lecture.

Learn how to manage your manager. In this course, adapted from the podcast How to Be Awesome at Your Job, Mary Abbajay explains how to build a good relationship with your boss.

Learn how to create and manage apps with SCCM and prepare for Microsoft certification exam 70-703. See how to deploy apps using PowerShell scripts, and deploy App-V virtual apps.

Explore cell communication and immunology in this 47-minute lecture from Yale University's Frontiers of Biomedical Engineering course. Delve into ligand-receptor interactions crucial for bodily homeostasis, examining various receptor and ligand types, their interactions, and applications in drug development. Learn about kinases, phosphatases, cyclic AMP, and protein state switching mechanisms. Discover three categories of cell communication signals: autocrine, paracrine, and endocrine. Understand cell communication through the example of blood sugar level regulation and response. The lecture covers an overview of cell communication, its mechanisms, agonists and antagonists, receptors, protein signal transduction, and different types of cell signaling molecules.

Explore the fascinating world of biomechanics and locomotion in this 52-minute lecture from Yale University's Frontiers of Biomedical Engineering course. Delve into the importance of motion for living species and examine various modes of movement, including flight, walking, running, cycling, and swimming. Learn about force balance, energy efficiency, and the impact of organism shape and size on locomotion. Discover the equation for calculating drag force on spherical objects moving through a medium. Gain insights into the design considerations for artificial hips, blending biomechanics with biomedical engineering. The lecture covers topics such as the mechanics of flight, physics of walking, comparative efficiencies of different locomotion methods, and the principles of biomechanical design.

Explore the field of biomedical engineering through this comprehensive 42-minute video from the University of Melbourne's Faculty of Engineering and Information Technology. Gain insights into the diverse career paths, specializations, and educational opportunities within this cutting-edge discipline. Discover various branches of biomedical engineering, including biosignals, biomechanics, tissue engineering, clinical engineering, rehabilitation engineering, medical bionics, medical imaging, implant development, medical device design, bioinformatics, systems biology, and nanotechnology. Learn about industry connections, employability prospects, and innovative subjects like Biodesign Innovation. Understand the educational pathways available, such as the Bachelor of Biomedicine Bioengineering Systems and Master of Biomedical Engineering programs, along with entry requirements, application deadlines, fees, and funding options. Get a glimpse into the vibrant engineering community and student organizations like MUBES that support aspiring biomedical engineers at the University of Melbourne.

Explore cell communication in the nervous and immune systems in this 50-minute lecture from Yale University's Frontiers of Biomedical Engineering course. Delve into the mechanisms of signal transmission in neurons, including action potentials and neurotransmitter release. Gain insights into the innate and adaptive immune systems, focusing on antigen recognition, immune cells, antibodies, and major histocompatibility complexes. Examine the detailed immune responses of cytotoxic T cells, T helper cells, and B cells. Learn about the nervous system's structure and function, cell communication processes, and the body's defense mechanisms against foreign hosts.

Explore the journey of becoming an effective software engineering manager in this insightful GOTO Book Club interview. Gain valuable insights from James Stanier, Director of Engineering at Shopify, and Gergely Orosz, author of The Pragmatic Engineer, as they discuss the challenges and opportunities of transitioning into management roles. Learn about the real stories behind Stanier's book, the differences between prescriptive advice and practical tools, and how to navigate the path to management. Discover current trends in engineering management, essential tools for success, and receive book recommendations to further your leadership skills. Whether you're considering a move into management or looking to enhance your existing leadership abilities, this talk offers practical guidance for thriving in the dynamic world of software engineering management.

Explore the complex skill tree required for successful engineering management in this 37-minute Devoxx conference talk. Discover the diverse range of abilities needed to transition from software engineer to engineering manager, including technical expertise, project management, and coaching. Learn about various "builds" to develop the skills necessary to become an exceptional leader, drawing parallels to role-playing game skill trees. Gain insights into what it takes to be a good manager and how to master the multifaceted aspects of engineering management that are as diverse as the teams you'll lead.

Explore a comprehensive course designed for aspiring and current engineering leaders in the tech industry. Gain valuable insights into transitioning from software development to engineering management, learning essential leadership skills and understanding the distinctions between technical lead and engineering management roles. Discover effective strategies for communication and feedback, and explore topics such as the engineering manager roadmap, becoming a great leader, and career-boosting skills. Dive into practical lessons on giving feedback as both a software developer and an engineering manager, equipping yourself with the knowledge needed to excel in leadership positions within the tech sector.