Unit rationale, description and aim
Eating is integral to life and a multitude of factors affect the eating experience. The relationships between food, perceptions of food, the eating environment and food and beverage intake are only beginning to be understood. This unit will support students to obtain a critical understanding of the factors believed to influence the eating experience and dietary intakes, from the composition and function of ingredients to the dining environment. In addition to assisting students to acquire highly advanced food planning, preparation, cooking and presentation skills this unit will enable students to become influencers of dietary intake in settings from food service in hospitals and nursing homes to meal delivery and cooking kits in the home or workplace. This unit aims to help students acquire the complex high-level knowledge, understanding, and practical and research skills to solve nutrition related problems through highly innovative planning, preparation, cooking and presentation of food that includes industry appropriate creative design of eating environments and eating occasions that have high sensory appeal.
Learning outcomes
To successfully complete this unit you will be able to demonstrate you have achieved the learning outcomes (LO) detailed in the below table.
Each outcome is informed by a number of graduate capabilities (GC) to ensure your work in this, and every unit, is part of a larger goal of graduating from ACU with the attributes of insight, empathy, imagination and impact.
Explore the graduate capabilities.
Critically examine the relationship between the fu...
Learning Outcome 01
Formulate, execute, and present a culinary nutriti...
Learning Outcome 02
Use safe and highly developed, creative, and innov...
Learning Outcome 03
Demonstrate how teamwork and advanced leadership s...
Learning Outcome 04
Content
Topics will include:
- Composition and function of ingredients
- Taste, odour, and flavour
- Sensory experience of eating
- Advanced sensory analysis
- Influence of the eating environment design and gastrophysics
- Sensory principles for healthy ingredient substitution
- Food styling principles for the table, in plating and in amateur food photography
- Scientific principles of preparation and cooking methods
- Culinary science research
- Advanced food preparation and cooking techniques
- Working as a team in a commercial cooking environment
Assessment strategy and rationale
In this unit, three assessment tasks are sequenced to progressively support students' learning in alignment with the learning and teaching strategy. The first, involves a written assessment task submitted within the first two weeks, and prior to the commencement of the intensive practical component with feedback provided prior to submission of the second assessment task. This task provides students with the opportunity to demonstrate their ability to evaluate and communicate complex culinary science principles using clear examples. The second and third assessment tasks extend this theoretical understanding by requiring students to successfully undertake a small and specific culinary nutrition science research project providing students with the opportunity to explore a topic of interest and demonstrate their ability to manage a research project from conception to communication of results. This assessment task will be submitted in two parts, the first a group presentation and the second an individual written report, requiring students to demonstrate two forms of research communication.
Students who do not hold a current food handling certificate (Hurdle task) will be required to complete and present evidence of completion prior to the commencement of practical sessions. Students are allowed unlimited attempts to complete the online food handling certificate prior to commencement of the practical sessions. Students with existing Safe Food Handling certification, valid within 36 months must email the National Lecturer in Charge.
The assessment tasks will allow unit coordinators to assess students’ demonstration of the learning outcomes and attainment of graduate capabilities.
In order to ensure students have achieved each learning outcome, to pass this unit, a student must pass the hurdle task and attain a minimum of 50% in each of the assessment tasks.
Overview of assessments
Ungraded hurdle Current food handling certificat...
Ungraded hurdle
Current food handling certificate.
Ungraded
Hurdle
Assessment 1 Written assessment task Enables st...
Assessment 1
Written assessment task
Enables students to demonstrate their ability to assess and clearly articulate the links between the composition and function of a single or composite ingredient and sensory experience.
30%
Assessment 2 and Assessment 3 Research project ...
Assessment 2 and Assessment 3
Research project
Enables students to demonstrate their ability to innovatively develop, execute and present the results of a relevant experiment to answer a research question. Students will work in groups to develop and present their project and submit an individual written report.
Presentation of project
30%
Written report
40%
Learning and teaching strategy and rationale
The unit content will be completed over the teaching period and at students' own pace in their own kitchens. Students will be assisted to share their work and create a collaborative learning environment through online forums and sharing platforms with high visual impact. The learning and teaching strategy adopted aligns with the sequencing of the learning outcomes and consists of three phases that are designed to provide students with a developmental learning experience. The unit begins with approaches designed to support acquisition of specialist knowledge needed to link food and eating with the senses, culinary nutrition science research approaches and food styling. The approaches used to facilitate students’ learning include online learning modules and readings. The unit then builds on this theoretical knowledge and assists students to develop understanding and then application through research and practical skills development in the kitchen. Overall, the approaches used in this unit have a constructively aligned developmental sequence designed to progressively, and logically, support students' learning in ways that maximise the perceived (and actual) relevance and value of each stage. As an overarching strategy, this is expected to engender high levels of engagement, efficiency, and effectiveness in students’ study behaviours, and to maximise their learning achievements. This strategy and approaches will allow students to meet the aim, learning outcomes and graduate capabilities of the unit. Learning and teaching approaches will reflect respect for the individual as an independent learner. Students will be expected to take responsibility for their learning and to participate actively in learning activities
Representative texts and references
Pedersen, M. T., Hansen, P. L., & Clausen, M. P. (2021). Gastronomy unravelled by physics: Gastrophysics. International Journal of Food Design, 6(2), 153–80.
Rowley, J., & Spence, C. (2018). Does the visual composition of a dish influence the perception of portion size and hedonic preference? Appetite, 128, 79–86. https://doi.org/10.1016/j.appet.2018.06.005.
Segnit, N. (2010). The Flavour Thesaurus. Bloomsbury.
Spence, C. (2017). Gastrophysics. Penguin Random House.
Spence, C. (2021). Gastrophysics: Getting creative with pairing flavours. International Journal of Gastronomy and Food Science, 27. https://doi.org/10.1016/j.ijgfs.2021.100433.
The Science of Taste Symposium. (2014). Originally published in the journal Flavour which is no longer published. Collection of articles published by BMC https://www.biomedcentral.com/collections/the-science-of-taste.
Vega, C., Ubbink, J. & van der Linden E. (Eds.) (2013). The Kitchen as Laboratory: Reflections on the Science of Food and Cooking. Colombia University Press.
Velasco, C., Michel, C. & Spence, C. (2021). Gastrophysics: Current approaches and future directions. International Journal of Food Design, 6(2),137-52. https://doi.org/10.1386/ijfd_00028_2
Recipe based:
The Editors of America’s Test Kitchen & Crosby, G. (2012). The Science of Good Cooking. Cook’s Illustrated.