Molecular Engineering - Intro to Biomedical Engineering from Udemy

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.

What's inside

Learning objectives

At the end of the course the student will have a top level understanding of molecular engineering
Student will understand and learn in high level different concentrations in biomedical engineering molecular engineering
Student will learn main key topics in each concentration
Multiplicity & heat transfer

Oxidation-reduction reactions
Acid & base equations
Protein folding

At the end of the course the student will have a top level understanding of molecular engineering
Student will understand and learn in high level different concentrations in biomedical engineering molecular engineering
Student will learn main key topics in each concentration
Multiplicity & heat transfer
Oxidation-reduction reactions
Acid & base equations
Protein folding

Syllabus

Introduction

Introduction to the Course

Background Knowledge

Introduction to Molecular Engineering

Traffic lights

Read about what's good

what should give you pause

and possible dealbreakers

Begins with molecular engineering basics before moving into technical aspects of molecular interactions with energy and heat, which builds a strong foundation

Includes quizzes and practice problems, which allows learners to test their knowledge and expand on the material covered in a stress-free and effective way

Explores topics such as multiplicity, heat transfer, oxidation-reduction reactions, acid and base equations, and protein folding, which are highly relevant to biomedical engineering

Examines biomolecular recognition, binding thermodynamics, and specificity, which may add color to other topics and subjects in biomedical engineering

Covers reaction rates, activation energy, and catalysts, which are core concepts for understanding molecular interactions and their applications in biomedical engineering

Requires learners to understand thermodynamics, systems, and energy, which may require learners to have some background knowledge in chemistry and physics

Reviews summary

Intro to biomedical molecular engineering

According to learners, this course provides a good introduction and a solid theoretical foundation in molecular engineering concepts relevant to biomedical applications. Many students found the lectures to be clear and the instructor explains complex concepts well, with helpful examples used to illustrate points. However, a significant point raised is that the course requires a strong prior science background, particularly in chemistry and physics, and is not suitable for complete beginners despite the course description. Some reviewers also noted that the quizzes can be inconsistent in difficulty and alignment with lecture content.

Examples aid understanding of concepts.

"Good examples helped solidify the concepts."

"The examples were very helpful."

"The examples were useful for illustrating the concepts."

"The examples were good..."

Provides a solid, high-level overview of the field.

"The course provides a good introduction to the molecular principles..."

"A good overview of the field."

"Decent course, but don't expect a deep dive. It's truly an introduction..."

"Good intro. Covers the listed topics well."

Provides a solid foundation in key concepts.

"provides a solid theoretical foundation on molecular interactions, thermodynamics, and kinetics..."

"Provides a strong theoretical basis for molecular engineering in bio applications."

"Excellent foundational course."

Instructor explains concepts well; lectures are clear.

"The lectures are clear and the instructor explains complex concepts well."

"Excellent foundational course. The explanations... were very clear."

"The instructor's enthusiasm is evident."

"Lectures are informative."

Some feel the course jumps or is too fast.

"Content is decent, but it jumps around a bit."

"I struggled with the pace..."

"Some sections felt rushed."

Quizzes vary in difficulty and relevance.

"some of the quizzes felt a bit easy compared to the lecture content..."

"The quizzes were sometimes confusing or didn't seem to directly test what was taught..."

"The quizzes were also tricky."

"Quizzes felt a bit hit or miss in difficulty and relevance."

Needs prior college-level science knowledge.

"I found this course quite challenging. As someone without a strong science background..."

"The course material assumes a level of prior knowledge I did not possess..."

"Needs a solid science background, especially in chemistry and physics, to keep up comfortably."

"Requires comfort with college-level science."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Molecular Engineering - Intro to Biomedical Engineering with these activities:

Review Thermodynamics Principles

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Reinforce your understanding of thermodynamics, a foundational concept for molecular engineering, to better grasp the course's initial modules.

Browse courses on Thermodynamics

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Review your notes from previous thermodynamics courses.
Work through practice problems related to heat transfer and energy balance.
Summarize the key laws of thermodynamics and their implications.

Read 'Physical Chemistry for the Chemical and Biological Sciences'

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Enhance your understanding of the physical chemistry principles underlying molecular engineering by studying a relevant textbook.

View Physical Chemistry for the Chemical and... on Amazon

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Focus on chapters related to thermodynamics, kinetics, and quantum mechanics.
Work through the example problems and exercises.
Relate the concepts to the specific topics covered in the Molecular Engineering course.

Read 'Molecular Biology of the Cell'

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Gain a deeper understanding of cellular processes and molecular interactions by reading a comprehensive cell biology textbook.

View Molecular Biology of the Cell on Amazon

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Read chapters related to protein structure, function, and interactions.
Take notes on key concepts and definitions.
Relate the concepts to the topics covered in the Molecular Engineering course.

Four other activities

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Solve Acid-Base Chemistry Problems

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Improve your proficiency in acid-base chemistry, a crucial skill for understanding molecular interactions and reactions in biomedical engineering.

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Review the concepts of acids, bases, pH, and buffers.
Solve practice problems involving acid-base titrations and equilibrium calculations.
Check your answers and review the solutions to identify areas for improvement.

Create a Data Visualization of Reaction Rates

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Improve your understanding of reaction rates by creating a data visualization that illustrates the effects of different factors on reaction kinetics.

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Gather data on reaction rates under varying conditions (e.g., temperature, concentration, catalysts).
Choose an appropriate visualization method (e.g., scatter plot, line graph, bar chart).
Create the visualization using software like Python, R, or Excel.
Analyze the visualization and draw conclusions about the factors affecting reaction rates.

Create a Presentation on Protein Folding

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Solidify your understanding of protein folding by creating a presentation that explains the process and its significance in molecular engineering.

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Research the different stages of protein folding and the factors that influence it.
Prepare slides with clear explanations and visuals.
Practice your presentation to ensure a smooth delivery.

Model Biomolecular Recognition

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Apply your knowledge of biomolecular recognition by creating a model that simulates the interaction between a drug and its target protein.

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Choose a specific drug-target interaction to model.
Use molecular modeling software to create 3D structures of the drug and protein.
Simulate the binding process and analyze the results.

Career center

Learners who complete Molecular Engineering - Intro to Biomedical Engineering will develop knowledge and skills that may be useful to these careers:

Biomedical Engineer

A Biomedical Engineer develops new medical procedures, designs medical devices, and conducts research in the fields of biology and medicine. This course helps build a foundation in the molecular interactions that govern biological processes. Biomedical engineers need this knowledge to design effective medical devices, understand reactions, and develop targeted therapies, which are all discussed in the course. This course focuses on molecular engineering fundamentals that are pivotal for those who want to be Biomedical Engineers.

See salaries and explore the career path for Biomedical Engineer

Research Scientist

As a Research Scientist, you will plan and conduct experiments, analyze data, and write reports to advance scientific knowledge and develop new technologies. This course helps to understand molecular engineering principles, interactions, and thermodynamics, which are critical for research in fields like drug discovery and biotechnology. The course's emphasis on molecular interactions, thermodynamics, and reaction rates helps the Research Scientist interpret experimental data, design new procedures, and develop impactful research outcomes.

See salaries and explore the career path for Research Scientist

Pharmaceutical Scientist

A Pharmaceutical Scientist researches and develops new drugs, studies the effects of medications on the body, and ensures the safety and efficacy of pharmaceutical products. Pharmaceutical scientists would find this course helpful because it covers key topics such as molecular interactions, chemical reactions, and binding thermodynamics, all of which are essential for designing and testing new drug candidates. This course's emphasis on molecular engineering helps Pharmaceutical Scientists discover how drugs interact with biological systems at the molecular level.

See salaries and explore the career path for Pharmaceutical Scientist

Molecular Biologist

Molecular Biologists study the structure and function of molecules in living organisms, often conducting experiments to explore genetic material, proteins, and other biomolecules. This course, with its comprehensive coverage of molecular engineering, interactions, and thermodynamics, helps to build a vital foundation for a career as a Molecular Biologist. The course’s syllabus, including protein folding, biomolecular recognition, and reaction rates, would be useful to those who wish to become Molecular Biologists.

See salaries and explore the career path for Molecular Biologist

Biochemist

Biochemists investigate the chemical processes in living organisms, studying the structure and function of proteins, carbohydrates, lipids, and nucleic acids. A course that discusses the fundamentals of molecular engineering, the interactions of molecules, and thermodynamics helps Biochemists understand the chemical reactions that drive biological processes. The course helps Biochemists appreciate how molecules interact, transfer energy, and affect biological systems.

See salaries and explore the career path for Biochemist

Process Development Scientist

As a Process Development Scientist, you optimize and scale up manufacturing processes for pharmaceuticals, chemicals, or biotechnology products. This course helps Process Development Scientists understand the thermodynamic properties of reactions, the effect of heat on reaction rates, and the binding of drug molecules. You may find the syllabus, including reaction rates, activation energy, and catalysts, useful for optimizing chemical reactions.

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Materials Scientist

Materials Scientists research and develop new materials with specific properties for a variety of applications, often focusing on the molecular structure and interactions within these materials. This course may be useful as it builds a foundation in the fundamentals of molecular engineering, which is valuable for understanding the behavior and properties of materials at the molecular level. The course helps Material Scientists appreciate how molecular interactions lead to specific material characteristics.

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Chemical Engineer

Chemical Engineers design and develop chemical processes and equipment for large-scale manufacturing, often involving chemical reactions and separation processes. This course may be helpful because it covers the basics of molecular engineering, thermodynamics, and reaction rates, all of which are essential for designing efficient and safe chemical processes. Chemical engineers need an understanding of chemical reactions, energies, and different states of matter, all of which are referenced in this course.

See salaries and explore the career path for Chemical Engineer

Science Teacher

Science Teachers educate students in various scientific disciplines by preparing lesson plans, conducting experiments, and assessing student performance. A Science Teacher can use material from this course on molecular engineering to simplify complex ideas for their students. The course may assist a Science Teacher in explaining concepts like thermodynamics and chemical reactions to students, thus making it more engaging and understandable.

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Science Writer

Science Writers communicate scientific information to the public through articles, blog posts, and other media, often translating complex scientific concepts into accessible language. This course may support Science Writers by providing a strong foundation in molecular engineering, which can then be conveyed to a broader audience. By taking a course, a Science Writer will increase their understanding of molecular interactions, chemical reactions, and thermodynamics, which allows them to communicate accurate information.

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Quality Control Analyst

Quality Control Analysts ensure that products meet certain standards and specifications, often involving testing and analysis of raw materials and finished goods. While this career often requires a bachelor's degree, this course may be useful because it builds a foundation in basic scientific principles, which can enhance the understanding of testing methodologies and data assessment. The Quality Control Analyst may find the course handy when assessing scientific documentation.

See salaries and explore the career path for Quality Control Analyst

Technical Sales Representative

Technical Sales Representatives sell technical products or services to businesses or organizations, often requiring a deep understanding of the product's function and benefits. This course may assist Technical Sales Representatives by providing a better understanding of the scientific principles behind the products they are selling. This course can help the Sales Representative better explain the products' functions and benefits, thus increasing sales and building stronger client relationships.

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Laboratory Technician

A Laboratory Technician performs tests, experiments, and analyses in a laboratory setting. They need to understand experimental and testing procedures. The thermodynamics and multiplicity covered in this course may be applicable in this work. A Laboratory Technician interested in better understanding lab procedures may find this course helpful.

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Patent Attorney

Patent Attorneys advise clients on intellectual property rights, draft patent applications, and represent clients in patent-related legal matters. A background in molecular engineering may be useful for understanding the technical aspects of inventions in the fields of biotechnology and pharmaceuticals. While a law degree and passing the patent bar are necessary to become a Patent Attorney, this course may help with the scientific understanding of patents.

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Medical Writer

Medical Writers develop documents for healthcare professionals and patients, such as clinical trial reports, regulatory submissions, and educational materials. Those familiar with molecular engineering would be prepared to translate research and data into understandable content. Medical writers may find the lessons on biomolecular recognition and drug binding especially useful.

See salaries and explore the career path for Medical Writer

Reading list

We've selected two books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Molecular Engineering - Intro to Biomedical Engineering.

Physical Chemistry for the Chemical and Biological...

Save

Provides a strong foundation in physical chemistry principles relevant to biological systems. It covers thermodynamics, chemical kinetics, and quantum mechanics, which are essential for understanding molecular interactions and reactions. It is particularly helpful for students who need to strengthen their understanding of the underlying physical principles. This book is often used as a reference for advanced undergraduate and graduate courses.

Physical Chemistry for the Chemical and Biological...

Hardcover

$$$$

Molecular Biology of the Cell

Save

Provides a comprehensive overview of cell biology, which is essential for understanding molecular interactions in biomedical engineering. It covers topics such as protein folding, biomolecular recognition, and reaction rates in detail. While not directly focused on molecular engineering, it provides the necessary biological context. It is commonly used as a textbook in many universities.

Molecular Biology of the Cell

Loose Leaf

$$$$

Molecular Engineering - Intro to Biomedical Engineering

What's inside

Learning objectives

Syllabus

Traffic lights

Save this course

Reviews summary

Intro to biomedical molecular engineering

Activities

Career center

Reading list

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