Mathematics, Physics and Radiation PhysicsLaajuus (4 cr)
Code: 7R00GM43
Credits
4 op
Objectives
The core objectives of the course are to understand the main phenomena of mathematics, physics and radiation physics related to the work of a radiographer.
After completion of the course the student:
• masters the basic mathematical methods related to the needs of the education and working life
• knows the basic principles of mechanics, theory of wave motion and electricity and can utilize the information in the equipment technique of the field of study
• knows the magnitude and measurement system of physics
• knows the principles of the safe use of electric equipment
• knows the basic principles of radiation and nuclear physics
• knows the function of x-ray and ultrasound equipment with auxiliary equipment
Content
• basics of mathematics
• magnitude system of mechanics
• theory of wave motion and electricity
• principles of radiation physics
• measurement system and measuring methods of radiation physics
• x-ray and ultrasound equipment with auxiliary equipment
Assessment criteria, satisfactory (1-2)
• can utilize basic mathematical methods related to the needs of working life
• can name the basic principles of mechanics, theory of wave motion and electricity
• can name the magnitude and measurement system of physics
• can describe the principles of the safe use of electric equipment
• can describe the basic principles of radiation and nuclear physics
• can describe the measurement system and the most significant measuring methods of radiation physics
• can describe the function of x-ray and ultrasound equipment with auxiliary equipment
Assessment criteria, good (3-4)
• can do basic mathematical calculations related to the needs of working life
• can name the basic principles of mechanics, theory of wave motion and electricity
• can name the magnitude and measurement system of physics
• can explain the principles of the safe use of electric equipment
• can explain the basic principles of radiation and nuclear physics
• can explain the measurement system and the most significant measuring methods of radiation physics
• can explain the function of x-ray and ultrasound equipment with auxiliary equipment
Assessment criteria, excellent (5)
• can do mathematical calculations related to the needs of working life
• can name the basic principles of mechanics, theory of wave motion and electricity
• can name the magnitude and measurement system of physics
• can reasonably explain the principles of the safe use of electric equipment
• can reasonably explain the basic principles of radiation and nuclear physics
• can reasonably explain the measurement system and the most significant measuring methods of radiation physics
• can reasonably explain the function of x-ray and ultrasound equipment with auxiliary equipment
Enrolment period
02.07.2024 - 31.08.2024
Timing
01.08.2024 - 30.10.2024
Credits
4 op
Mode of delivery
Contact teaching
Unit
TAMK Mathematics and Physics
Campus
TAMK Main Campus
Teaching languages
- Finnish
Degree programmes
- Degree Programme in Radiography and Radiotherapy
Teachers
- RADIO-luennoitsija Virtuaalihenkilö
- Sami Suhonen
Person in charge
Tiina Säilä
Groups
-
24RH1
Objectives (course unit)
The core objectives of the course are to understand the main phenomena of mathematics, physics and radiation physics related to the work of a radiographer.
After completion of the course the student:
• masters the basic mathematical methods related to the needs of the education and working life
• knows the basic principles of mechanics, theory of wave motion and electricity and can utilize the information in the equipment technique of the field of study
• knows the magnitude and measurement system of physics
• knows the principles of the safe use of electric equipment
• knows the basic principles of radiation and nuclear physics
• knows the function of x-ray and ultrasound equipment with auxiliary equipment
Content (course unit)
• basics of mathematics
• magnitude system of mechanics
• theory of wave motion and electricity
• principles of radiation physics
• measurement system and measuring methods of radiation physics
• x-ray and ultrasound equipment with auxiliary equipment
Assessment criteria, satisfactory (1-2) (course unit)
• can utilize basic mathematical methods related to the needs of working life
• can name the basic principles of mechanics, theory of wave motion and electricity
• can name the magnitude and measurement system of physics
• can describe the principles of the safe use of electric equipment
• can describe the basic principles of radiation and nuclear physics
• can describe the measurement system and the most significant measuring methods of radiation physics
• can describe the function of x-ray and ultrasound equipment with auxiliary equipment
Assessment criteria, good (3-4) (course unit)
• can do basic mathematical calculations related to the needs of working life
• can name the basic principles of mechanics, theory of wave motion and electricity
• can name the magnitude and measurement system of physics
• can explain the principles of the safe use of electric equipment
• can explain the basic principles of radiation and nuclear physics
• can explain the measurement system and the most significant measuring methods of radiation physics
• can explain the function of x-ray and ultrasound equipment with auxiliary equipment
Assessment criteria, excellent (5) (course unit)
• can do mathematical calculations related to the needs of working life
• can name the basic principles of mechanics, theory of wave motion and electricity
• can name the magnitude and measurement system of physics
• can reasonably explain the principles of the safe use of electric equipment
• can reasonably explain the basic principles of radiation and nuclear physics
• can reasonably explain the measurement system and the most significant measuring methods of radiation physics
• can reasonably explain the function of x-ray and ultrasound equipment with auxiliary equipment
Assessment scale
0-5
Teaching methods
Classroom teaching
Educational videos
Exercises
Teaching discussion
Learning materials
Material in Moodle
Student workload
The student's calculated workload: 4 ECTS = 108 h
Content scheduling
Mathematics 1 ects
Physics 1 ects
Radiation Physics 2 ects
Completion alternatives
-
Enrolment period
02.07.2024 - 30.08.2024
Timing
01.08.2024 - 21.10.2024
Credits
4 op
Mode of delivery
Contact teaching
Unit
TAMK Mathematics and Physics
Campus
TAMK Main Campus
Teaching languages
- Finnish
Degree programmes
- Degree Programme in Radiography and Radiotherapy
Teachers
- RADIO-luennoitsija Virtuaalihenkilö
- Sami Suhonen
Person in charge
Tiina Säilä
Groups
-
24RH2
Objectives (course unit)
The core objectives of the course are to understand the main phenomena of mathematics, physics and radiation physics related to the work of a radiographer.
After completion of the course the student:
• masters the basic mathematical methods related to the needs of the education and working life
• knows the basic principles of mechanics, theory of wave motion and electricity and can utilize the information in the equipment technique of the field of study
• knows the magnitude and measurement system of physics
• knows the principles of the safe use of electric equipment
• knows the basic principles of radiation and nuclear physics
• knows the function of x-ray and ultrasound equipment with auxiliary equipment
Content (course unit)
• basics of mathematics
• magnitude system of mechanics
• theory of wave motion and electricity
• principles of radiation physics
• measurement system and measuring methods of radiation physics
• x-ray and ultrasound equipment with auxiliary equipment
Assessment criteria, satisfactory (1-2) (course unit)
• can utilize basic mathematical methods related to the needs of working life
• can name the basic principles of mechanics, theory of wave motion and electricity
• can name the magnitude and measurement system of physics
• can describe the principles of the safe use of electric equipment
• can describe the basic principles of radiation and nuclear physics
• can describe the measurement system and the most significant measuring methods of radiation physics
• can describe the function of x-ray and ultrasound equipment with auxiliary equipment
Assessment criteria, good (3-4) (course unit)
• can do basic mathematical calculations related to the needs of working life
• can name the basic principles of mechanics, theory of wave motion and electricity
• can name the magnitude and measurement system of physics
• can explain the principles of the safe use of electric equipment
• can explain the basic principles of radiation and nuclear physics
• can explain the measurement system and the most significant measuring methods of radiation physics
• can explain the function of x-ray and ultrasound equipment with auxiliary equipment
Assessment criteria, excellent (5) (course unit)
• can do mathematical calculations related to the needs of working life
• can name the basic principles of mechanics, theory of wave motion and electricity
• can name the magnitude and measurement system of physics
• can reasonably explain the principles of the safe use of electric equipment
• can reasonably explain the basic principles of radiation and nuclear physics
• can reasonably explain the measurement system and the most significant measuring methods of radiation physics
• can reasonably explain the function of x-ray and ultrasound equipment with auxiliary equipment
Assessment scale
0-5
Teaching methods
Classroom teaching
Educational videos
Exercises
Teaching discussion
Learning materials
Material in Moodle
Student workload
The student's calculated workload: 4 ECTS = 108 h
Content scheduling
Mathematics 1 ects
Physics 1 ects
Radiation Physics 2 ects
Completion alternatives
-