Czech

3

Not applicable.

The required subject knowledge  corresponds to level B2of the Common European Framework of Reference for Languages. 

The course corresponds to B1–B2 levels of the Common European Framework of Reference for Languages. It is aimed at the professional language and communication. No general language exam, including the secondary school exam “Maturita”,  can be recognized as an equivalent.
Active participation in seminars and a minimum of 75% attendance are required according to the regulations issued by the Head of the Department of Languages and presented on the Department website http://www.ujaz.feec.vutbr.cz/.

Semester test and exam.

A semester test has a written form and it includes two parts:
• terminology multiple choice test,
• filling in missing words into a semi-technical text.
The semester test is assessed by max. 40 marks. To be able to register for an exam, a student has to obtain 60% at least, i.e. 24 marks. The semester test can be repeated only once.
An exam has a written form. It is assessed by max. 60 marks. It consists of two parts:
• reading comprehension assessed by max. 30 marks and
• listening comprehension assessed by max. 30 marks.
A student has to obtain 50% at least out of each exam part in order to pass successfully the exam.

The content and forms of instruction in the evaluated course are specified by a regulation issued by the lecturer responsible for the course and updated for every academic year.

The aim of the course is to present the language functions and to develop language skills necessary for professional communication with colleagues, business partners and institutions in the international competitive environment.
Objectives:
• Understanding specific technical information in spoken and written forms.
• The ability to communicate in specific situations related to the development, production and presentation of devices and their parts and components. The ability to express one´s ideas and discuss the issues and current trends in technology. The ability to communicate in different situations according to the production process requirements.
• The knowledge of specific terminology.

The final exam verifies that a course graduate is able:
1.On the basis of the acquired professional vocabulary, to take part in discussions on basic subjects of electrical engineering (electric circuits, electric current, electrical conductors) and on subjects in his field of study.
2.To read or to write down basic mathematical expressions and processes (addition, subtraction, multiplication, division, brackets, decimal numbers, fractions, powers, roots, equations).
3.To describe technical functions and applications and explain how technology works using texts “GPS applications” and “Space elevators”. Useful vocabulary includes verbs use, allow, enable, permit, ensure, prevent and verbs describing movement.
4.To describe common materials and alloys (aluminium, bronze, copper, glass, lead, iron, ore, plastic, rubber, steel, stainless steel, timber, hardwood, softwood, zinc) and to describe their properties.
5.To describe component shapes and features of the electrical plugs and sockets used in different countries. A course graduate is also able to use nouns and verbs to describe joints and fixings.
6.To describe various types of technical problems and causes of faults. When describing the causes of faults, a course graduate uses adjectives commonly used (inadequate, incorrect, etc.) as well as the language used for linking causes and effects: because of..., consequently, owing to..., as a result of ... .
7.To discuss technical requirements of new products with people from other professions (needs analysis in technical contexts) and to assess the feasibility of proposed technical solutions.
8.To use basic vocabulary connected with health and safety precautions. On the basis of this vocabulary, a course graduate is able to describe personal protective equipment related to common industrial hazards and identify a safe system of work.
9.To describe automated systems and to verbalize graphs, charts and trends, e.g. in the context of electricity consumption trends.
10.To explain technical experimentation and development using the language describing the range of development tools used by engineers in all disciplines – from computing modelling, through reduced-scale testing, to full-scale field trials. Using the language phrases of comparing, a course graduate is able to compare what was predicted (expectations) with what actually happened (results).
11.To understand the main points of listening activities focused on technically-oriented discussions.
12.To scan longer texts in order to locate desired information, and to gather information from different parts of a text, or from different texts in order to fulfil a specific task.

Not applicable.

Not applicable.

IBBOTSON, Mark. Cambridge English for engineering. Cambridge: Cambridge University Press, 2008. Cambridge professional English. ISBN 978-0-521-71518-8. (EN)
DUMMETT, Paul. Energy English for the Gas and Electricity Industries, Student´s Book. Heinle: Cengage Learning, 2010. ISBN 978-0-462-09877-7 (CS)

Not applicable.

eLearning: currently opened course

26 hours, compulsory

1. Introduction

2. Electricity generation; The nuclear debate

3. Electricity transmission and distribution

4. The electricity supply chain

5. Renewable energy

6. Plugs and Sockets

7. Monitoring and control; Automation

8. Variations in electricity consumption; Energy in the home

9. GPS; Describing how things work

10. Safety and Precautions

11. Cars; Describing malfunctions

12. Revision

13. Final test

 

eLearning: currently opened course