2019/20 Undergraduate Module Catalogue
BMSC1103 Basic Laboratory and Scientific Skills
20 creditsClass Size: 200
Module manager: Dr Michael Harrison
Taught: Semester 1 View Timetable
Year running 2019/20
Pre-requisite qualificationsSuitable qualifications for entry to programmes of study in Biomedical Sciences
|BMSC1110||Foundations of Biomedical Sciences|
|BMSC1210||Biology of the Mind|
|BMSC1212||Introduction to Pharmacology|
|BMSC1213||Basic Laboratory and Scientific Skills 2|
This module is not approved as a discovery module
ObjectivesThe module aims to prepare students with the basic skills that are needed to carry out laboratory work and analyze data in the biomedical sciences.
On completion of this module students should have acquired basic skills including the ability to:
- display data in an appropriate manner;
- perform basic statistical analysis;
- manipulate units of length, mass and volume;
- manipulate simple algebraic expressions;
- define an exponential process and convert an exponential curve into a straight line;
- perform basic calculations of concentration and prepare solutions to the correct composition;
- use correctly a variety of basic laboratory equipment;
- perform some basic histological techniques;
- write a coherent account of experimental work in a scientific style;
- use some standard software applications and web resources.
This module will help develop your teamworking skills and provide training in using data handling and presentation software. There is a strong focus on developing key basic practical skills, including use of standard lab equipment and procedures that you will use throughout your degree course. Particular emphasis is placed on learning how to work safely in the laboratory environment.
This module will cover the basic laboratory and numerical skills that are essential to proper understanding of experimental work in biomedical sciences. These elements of the syllabus will be integrated into the development of some basic laboratory skills. The latter will include the correct use of automatic pipettes, spectrophotometer, the light microscope and electrophoresis equipment.
Students will also receive instruction on how to:
a) write and word process a conventional laboratory report; and
b) use standard software applications to present results as graphs and spreadsheets.
|Delivery type||Number||Length hours||Student hours|
|Private study hours||158.00|
|Total Contact hours||42.00|
|Total hours (100hr per 10 credits)||200.00|
Private study5 hours: class tests, exams and assessment;
36 hours: preparation for and consolidation of practical classes: (9 x 4 hours);
40 hours: preparation of practical report: (2 x 20 hours);
30 hours: consolidation of lecture material: (10 x 3 hours);
30 hours: revision for MCQ assessments (2 x 15 hours);
12 hours: tutorial preparation (3 x 4 hours).
Opportunities for Formative FeedbackStudents will complete practical worksheets, VLE based exercises and written practical reports.
Methods of assessment
|Assessment type||Notes||% of formal assessment|
|In-course MCQ||On-line test on course material||25.00|
|Practical Report||Practical report - laboratory report prepared to prescribed format||25.00|
|Practical Report||A lab-based exercise on solutions and concentrations and MCQ||50.00|
|Total percentage (Assessment Coursework)||100.00|
Any absence from a practical class will attract a v-code. To remove the v-code the student must submit a lab report, based on data provided to them, by a given deadline. The lab report will be check marked to determine it has reached a pass standard. Feedback will not be provided on it.
Reading listThe reading list is available from the Library website
Last updated: 17/04/2019
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