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Updated in [September 15th, 2023]
What does this course tell?
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In this free Polymer Physics course, you are introduced to the world of Polymer technologies, where you will explore the universal features of polymers and the processes involved in polymeric-based technological systems. Calculations, demonstrations and assessment questions in this video-based course, are designed to provide you with a comprehensive foundation in the subject.
The course begins by introducing you to what Polymers are and the importance of studying this subject. You will then explore how Polymers are different from other molecular substances, covering topics such as: Random walk models, Polymer chains, Thermodynamics, Flory-Huggins theory, Brownian motions, Continuum mechanics and Rheology.
This course will be of interest to Physics and Chemical Engineering students, those interested in research in this area or those looking to enhance their career prospects in the industry. Start this free course today and learn more about polymeric-based technological systems.
We consider the value of this course from multiple aspects, and finally summarize it for you from three aspects: personal skills, career development, and further study:
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What skills and knowledge will you acquire during this course?
By taking this Advanced Diploma in Polymer Physics course, you will acquire a comprehensive understanding of the universal features of polymers and the processes involved in polymeric-based technological systems. You will learn about random walk models, polymer chains, thermodynamics, Flory-Huggins theory, Brownian motions, continuum mechanics and rheology. You will also gain the skills to calculate and demonstrate the concepts you have learned. Additionally, you will be able to assess your understanding of the subject through the assessment questions provided.
How does this course contribute to professional growth?
The Advanced Diploma in Polymer Physics course contributes significantly to professional growth. By completing this course, individuals gain a comprehensive foundation in the field of Polymer technologies, which is highly valuable in various professional settings.
Firstly, this course equips individuals with a deep understanding of the universal features of polymers and the processes involved in polymeric-based technological systems. This knowledge is essential for professionals working in industries that utilize polymers, such as the chemical, manufacturing, and materials industries. By understanding the fundamental principles of polymers, individuals can make informed decisions and contribute effectively to the development and improvement of polymeric-based products and technologies.
Moreover, the course covers a wide range of topics, including random walk models, polymer chains, thermodynamics, Flory-Huggins theory, Brownian motions, continuum mechanics, and rheology. This diverse knowledge base allows individuals to approach polymer-related problems from different perspectives and apply various analytical and computational techniques. Such versatility is highly valued in research and development roles, where individuals are often required to tackle complex challenges and find innovative solutions.
Additionally, the course is designed for Physics and Chemical Engineering students, as well as those interested in research in this area. By completing this course, individuals can enhance their academic qualifications and expand their knowledge in the field of Polymer Physics. This can open up opportunities for further education, such as pursuing a higher degree or engaging in advanced research projects. The course also provides a solid foundation for individuals looking to specialize in polymer-related research or pursue a career in academia.
Lastly, the course can significantly enhance career prospects in the industry. Professionals with a strong understanding of Polymer Physics are in high demand, as they can contribute to the development of new materials, improve manufacturing processes, and optimize product performance. By acquiring the knowledge and skills offered in this course, individuals can position themselves as valuable assets to employers and increase their chances of career advancement and higher remuneration.
In conclusion, the Advanced Diploma in Polymer Physics course is a valuable resource for professional growth. It equips individuals with a comprehensive foundation in Polymer technologies, allowing them to make informed decisions, tackle complex challenges, and contribute effectively to the industry. Whether individuals are seeking to enhance their career prospects, pursue further education, or specialize in research, this course provides the necessary knowledge and skills to succeed in the field of Polymer Physics.
Is this course suitable for preparing further education?
Yes, the Advanced Diploma in Polymer Physics course is suitable for preparing further education. It provides a comprehensive foundation in the subject, covering topics such as Random Walk models, Polymer chains, Thermodynamics, Flory-Huggins theory, Brownian motions, Continuum mechanics and Rheology. The course is ideal for Physics and Chemical Engineering students, those interested in research in this area or those looking to enhance their career prospects in the industry.
Course Syllabus
Polymers and Molecules
In this module you will learn about macro-molecules, molecular flexibility, classification of polymers, polydispersity, random walk models for single chain 1 and single chain 2.Models and Probability
In this module you will learn about random walk models, the Kratky Porod model and the probability density of an ideal chain.Radius of Gyration
In this module you will learn about the Bead-Spring model, Einstein notation, radius of gyration, concept of ideality and non-bonded interactions.Fractal Nature of Polymers
In this module you will learn about the excluded volume, viral expansion, Flory theory, fractal nature of polymers and gyration tensor.Structure of Polymer Chain
In this module you will learn about transition, scattering experiments, simulations of polymer chains, algorithm and Monte Carlo simulations.Solution Thermodynamics
In this module you will learn about molecular dynamics simulations and solution thermodynamics.Lattice Model of Solutions
In this module you will learn about the phase separation regime, lattice model of solutions and phase behavior of liquid solutions.Brownian Motion
In this module you will learn about the Brownian motion, time reversal symmetry, fluctuation dissipation theorem and mean square displacement.Rouse Model
In this module you will learn about the finite difference scheme, ordinary differential equations, mean square displacement and hydrodynamic interactions.Continuum Mechanics
In this module you will learn about hydrodynamic interactions, the Zimm model in good solvent, continuum mechanics, mechanical equilibrium and Kuhn’s theory of rubber elasticity.Polymeric Systems
In this module you will learn about the elasticity of polymer networks, the stress tensor, entanglements and models for entangled polymeric systems.Polymer Rheology
In this module you will learn about the rheology of complex fluids, the superposition principle, rheometers and rheological tests and the Maxwell model.Course assessment