Course Title: Rheology and Food Biophysics

Part A: Course Overview

Course Title: Rheology and Food Biophysics

Credit Points: 12.00

Terms

Course Code	Campus	Career	School	Learning Mode	Teaching Period(s)
ONPS2758	Bundoora Campus	Postgraduate	171H School of Science	Face-to-Face	Sem 2 2024, Sem 2 2025

Course Coordinator: Stefan Kasapis

Course Coordinator Phone: +61 3 9925 5244

Course Coordinator Email: stefan.kasapis@rmit.edu.au

Course Coordinator Availability: By appointment

Pre-requisite Courses and Assumed Knowledge and Capabilities

None

Course Description

Today, in Australia and overseas a large number of the graduates of a Food Science and Technology program will be employed by the Food Industry in positions that require leadership and sound knowledge of developing, on a scientific basis, processed product formulations. Within this framework and to cope with the complexity of the task, the industry has adopted the so-called ’sophisticated biomaterial approach’ that requires understanding of the molecular interactions of biopolymers (proteins and polysaccharides), small polyhydroxyl compounds as co-solutes in the basic formulation (e.g. sugars) and their replacers (e.g. polydextrose), edible fats and oils and their replacement (eg dietary fibre), and counterions inducing gelation (e.g. salts). 
 
Every year, a voluminous patented literature attempts to safeguard the interests of the industry in this area taking advantage of the aforementioned specialized knowledge and its implications for the chemistry, structure, functionality, texture and QDA sensory evaluation of added value commercial products. Based on this, the course aims to introduce students to the language and principles of rheology and texture in model biomaterials and related industrial formulations. This will then be discussed in conjunction with the principles of biophysics in order to unveil the molecular mechanisms responsible for the observed rheological behaviour. Such a combined treatise should enhance your employment prospects and further support the Australian food industry and Food Sciences RMIT as a hub of innovation and quality control. 
 
The content of the course has been identified to be of primary interest in the food science and technology programme at RMIT University, and the lecturers of the course have drawn from their considerable expertise, working with the food industry or research institutes (eg Unilever, Nestle, Sanitarium Health Foods Company, Montague fresh and CSIRO/FNS) to emphasize current issues and challenges pertaining to the subject. 

This course includes a Work Integrated Learning experience in which your knowledge and skills will be applied and assessed in a real or simulated workplace context and where feedback from industry and/ or community is integral to your experience.

Objectives/Learning Outcomes/Capability Development

This course contributes to the program learning outcomes for the following program(s):  

MC237 - Master of Food Science and Technology
GD132 - Graduate Diploma in Food Science and Technology    

PLO 1.1 Understand food science and technology - Demonstrate an advanced understanding of food science and technology by articulating relevant scientific methods and explaining why and how current knowledge in this discipline is both contestable and continuously evolving. Through further inquiry and research, make food science and technology relevant in society. 
PLO 1.2 Understand food science and technology - Display a thorough understanding of recent developments in a specialised area of food science and technology. 
PLO 2.1 Critically analyse and solve problems in food science and technology - Demonstrate cognitive skills and mastery of advanced theoretical knowledge in food science and technology and apply this knowledge to solve complex problems in existing and emerging areas of this discipline. 
PLO 4.1 Communicate technical knowledge - Effectively communicate concepts of food science and technology to specialist and non-specialist audiences, using a variety of presentation modes. 
PLO 5.1 Display personal and professional responsibility - Be accountable for individual learning and professional rigour via the development of independent and self-directed learning strategies. 
PLO 5.2 Display personal and professional responsibility - Work effectively, responsibly, ethically and safely in an individual or team context. 

GC190 - Graduate Certificate in Food Science and Technology

PLO 1.1 Understand food science and technology - Display a thorough understanding of recent developments in a specialised area of food science and technology.
PLO 2.1 Critically analyse and solve problems in food science and technology - Demonstrate cognitive skills and mastery of advanced theoretical knowledge in food science and technology and apply this knowledge to solve complex problems in existing and emerging areas of this discipline.
PLO 3.1 Communicate technical knowledge - Effectively communicate concepts of food science and technology to specialist and non-specialist audiences, using a variety of presentation modes.
PLO 4.1 Display personal and professional responsibility - Be accountable for individual learning and professional rigour via the development of independent and self-directed learning strategies.
PLO 4.2 Display personal and professional responsibility -  Work effectively, responsibly, ethically and safely in an individual or team context.

For more information on the program learning outcomes for your program, please see the program guide.  

Upon successful completion of this course, you will be able to: 

1. Critically analyse the major principles and types of rheology;
2. Distinguish how rheology principles can be applied to give the required structure, texture and viscosity in processed food products;
3. Critically review molecular principles and mechanisms of food biophysics that dictate the observed rheological behaviour in solutions, gels and bioglasses;
4. Apply the expertise acquired from the rheology and food biophysics teaching materials to critically evaluate new food product development within a technical context that emphasises textural consistency and mouthfeel;
5. Communicate effectively as a professional scientist and food rheologist. 

Overview of Learning Activities

You will be actively engaged in a range of learning activities such as lectorials, tutorials, practicals, laboratories, seminars, project work, class discussion, individual and group activities. Delivery may be face to face, online or a mix of both.

The Work Integrated Learning components of this course do not have prerequisite requirements and are part of the regular timetable. They include case studies featuring industry engagements, such as with Nestle, Unilever, and Sanitarium, where real-life challenges were addressed using concepts of rheology and food biophysics, leading to successful product commercialisation. Additionally, an industry workshop at the semester's end features a speaker who demonstrates the course's applications in an industrial setting, followed by a graded reflection task.

You are encouraged to be proactive and self-directed in your learning, asking questions of your lecturer and/or peers and seeking out information as required, especially from the numerous sources available through the RMIT library, and through links and material specific to this course that is available through myRMIT Studies Course.

Overview of Learning Resources

RMIT will provide you with resources and tools for learning in this course through myRMIT Studies Course.

Weekly learning resources are set up and available in Canvas.  

A list of recommended learning resources will be provided by your lecturer, which may include books, journal articles and web resources. You will also be expected to seek further resources relevant to the focus of your own learning. 

There are services available to support your learning through the University Library. The Library provides guides on academic referencing and subject specialist help as well as a range of study support services. For further information, please visit the Library page on the RMIT University website and the myRMIT student portal.

Overview of Assessment

Assessment Tasks

Assessment Task 1: Group laboratory reports 
Weighting 30%
This assessment task supports CLOs 3 & 4

Assessment Task 2: A group project report and presentation
Weighting  40%
The assessment tasks supports CLOs 1, 2 & 5

Assessment Task 3: Reflections
Weighting 10%
This assessment tasks supports CLO 5

Assessment Task 4: In class online assessment at the middle of the semester
Weighting 20%
This assessment task supports CLOs 1, 2 & 4

If you have a long-term medical condition and/or disability it may be possible to negotiate to vary aspects of the learning or assessment methods. You can contact the program coordinator or Equitable Learning Services if you would like to find out more.