Physicist-Engineer BSc: Course list

Physicist-Engineer Responsible: Dr. András Halbritter
Legend
Type: C - compulsory, E - elective modules, O - optional
Grading: e - examination, c - coursework grade, a - audit
# - Proposed semester, + - proposed semester of elective courses, @ - alternative semester

Subject				Code	Type	Eval	Credit	Hours			Proposed Semester
Subject				Code	Type	Eval	Credit	Lect	Prac	Lab	1	2	3	4	5	6	7
COMPULSORY COURSES							150
	Basic Knowledge						6
		Physics Problem Solving Tutorial		BMETE15AP58	C	c	6	2	0	2	#
	Physics						37
		Mechanics		BMETETOP101	C	e	8	4	2	0		#
		Electrodynamics and Optics		BMETE12AP49	C	e	8	4	2	0			#
		Thermodynamics and Statistical Physics		BMETE11AP60	C	e	6	2	2	0				#
		Modern Physics		BMETE15AP59	C	e	8	4	2	0				#
		Nuclear Physics Fundamentals		NTI	C	e	3	2	0	0					#
		Solid State Physics		BMETE11AP61	C	e	4	2	1	0					#
	Mathematics						34
		Vector and Matrix Algebra		BMETE91AP62	C	e	8	4	2	0	#
		Calculus		BMETE92AP61	C	e	8	4	2	0	#
		Multivariable Calculus		BMETE92AP62	C	e	8	4	2	0		#
		Probability Theory		BMETE95AP45	C	e	5	2	2	0			#
		Mathematical Methods in Physics		BMETE11AP58	C	e	5	2	2	0			#
	Informatics and Computing						21
		Programming 1		BMEVIAUAA00	C	c	7	2	2	2	#
		Programming 2		BMEVIAUAA01	C	c	6	2	0	2		#
		Introduction to Numerical Algorithms		BMETE15AP60	C	c	4	1	0	2			#
		Introduction to Machine Learning		FI-EFT	C	c	4	1	0	2				#
	Applied Science, Technology and Design						44
		Data Collection and Evaluation		BMETE11AP63	C	c	7	0	0	4		#
		Measurement Design and Laboratory Exercises		BMETE11AP64	C	c	3	0	0	2			#
		Measurement Techniques		BMETE11AP65	C	e	3	2	0	0			#
		Measurement Techniques Laboratory		BMETE11AP66	C	c	5	0	0	3				#
		Computer Controlled Measurements		BMETE11AP67	C	c	3	0	0	2				#
		Computer Aided Design		GPK	C	c	4	1	0	2						#
		Electronics		BMETE12AP50	C	c	4	2	1	0				#
		Electronics Laboratory		NTI	C	c	3	0	0	2					#
		Chemical Sensors and Measurement Techniques		VBK	C	e	3	2	0	0						#
		Elective Subjects on Engineering (9 credits from the list below to broaden your engineering knowledge. Some specialization courses are also accepted here, if not taken there (see specializations). Additional justified engineering subjects may be taken on individual request, please use this block to prepare if you are planning an MSc in Engineering.)			E		6	3	2	0					#
					E		3	1	1	0						#
			Renewable energy technologies	BMEGEENBEMG	E	c	4	3	0	1					+
			Life Cycle Assessment	BMEGEENBVEE	E	e	3	2	0	1					+
			Energy Processes and Equipment	BMEGEENBGEB	E	c	5	3	0	2					+
			Electric Power Transmission	BMEVIVEAC00	E	e	4	2	1	0					+
			Fluid Mechanics	BMEGEÁTAF11	E	c	6	2	2	1					@	+	@
			Numerical Modelling of Fluid Flows	GPK	E	c	4	1	0	2						+
			Advanced Thermodynamics	BMEGEENNWAT	E	c	4	2	1	0					+
			Control Engineering	VIK	E	e	5	2	1	1						+
			Robotized Manufacuring Systems	VIK	E	e	5	2	2	0					@		+
	Management and Communication						8
		Elective Block 1 (3 credits from the list below)		GTK	E		3	0	2	0	#
			Communication Strategies English B2	BMEGT60LNGA406-01	E	c	3	0	2	0	+	@
			English for University Studies B2+	BMEGT60LNGA501-01	E	c	3	0	2	0	+	@
			Public Speaking B2+	BMEGT60LNGA502-01	E	c	3	0	2	0	+	@
			Technical English B2	BMEGT60LNGA403-01	E	c	3	0	2	0	+	@
			Academic Writing C1*	BMEGT60LNGA605-01	E	c	3	0	2	0	+	@
			Professional Speaking C1*	BMEGT60LNGA606-01	E	c	3	0	2	0	+	@
		*Elective Block 2 (5 credits from the list below, or the asterisked () courses in Elective Block 1, if not taken there)**		GTK	E		5	2	2	0						#
			Micro and Macro Economics	BMEGT301004	E	c	5	4	0	0					+		@
			Management and Business Economics	BMEGT20A402	E	c	5	4	0	0						+
			Cross-cultural Communication, English B2	BMEGT60W62A	E	c	3	0	2	0						+
			Psychology	BMEGT52A004	E	e	3	2	0	0						+
			Ergonomics	BMEGT52A001	E	c	3	2	0	0					@	+	@
			The Economic Law of the European Union	BMEGT55MN02	E	c	3	2	0	0					@	+	@
			Corporate Law	BMEGT55M008	E	e	3	2	0	0					+		@
			Safety Culture	GTK	E	c	3	0	2	0						+
THESIS WORK
	Thesis Work				C	c	15	0	0	15							#
INTERNSHIP
	6-week internship after semester 6				C	a	0										#
OTHER CRITERIA SUBJECTS
	Physical Education 1				C	a	0	0	2	0	#	@	@	@	@	@
	Physical Education 2				C	a	0	0	2	0		#	@	@	@	@	@

OPTIONAL COURSES (any BME course)							10								3	3	4

SPECIALIZATIONS							35								12	12	11
	Nanotechnology and Quantum Applications, Nuclear Technologies and Sustainable Energetics, Scientific Data Processing

TOTAL NUMBER OF CREDITS							210				32	29	28	30	31	30	30

Physicist-Engineer - Nanotechnology and Quantum Applications Specialization
Specialization Responsible: Dr. Szabolcs Csonka
Legend
Type: C - compulsory, E - elective modules, O - optional
Grading: e - examination, c - coursework grade, a - audit
*# - Proposed semester, + - propsed semster of courses in elective block, @ - alternative semester, - accepted in the block of elective subjects on engineering**

Subject			Code	Type	Eval	Credit	Hours			Proposed Semester
Subject			Code	Type	Eval	Credit	Lect	Prac	Lab	1	2	3	4	5	6	7
COMPULSORY COURSES						21
	Quantum Physics			C	e	6	2	2	0					#
	Advanced Physics Course (1 subject from the two courses below, the other may be taken as an elective course)			E	e	3	2	0	0					@	#
		Nano and Quantum Phenomena in Solids (Compulsory, if the "Solid State & Nano & Quantum" block is chosen at the final exam)	FI-FT	E	e	3	2	0	0						+
		Optics (Compulsory, if the "Optics" block is chosen at the final exam)	FI-AFT	E	e	3	2	0	0					+
	Nanotechnology and Quantum Applications Specialization Laboratory 1		FI-FT	C	c	6	0	0	4					#
	Nanotechnology and Quantum Applications Specialization Laboratory 2		FI-FT	C	c	6	0	0	4						#	@
*ELECTIVE COURSES (Asterisked () courses are also accepted in the block of elective subjects on engineering)**						14
	Quantum Information Processing
		Quantum Information Processing	BMETE11MF42	E	e	3	2	0	0						#
		Introduction to Quantum Computing and Communications	VIK	E	c	2	2	0	0					#		@
		Neural Networks	FI-FT	E	c	4	1	2	0					@		#
	Nanotechnology, Semiconductor Technology, Materials Science
		Advanced Semiconductor Devices	FI-FT	E	e	3	2	0	0						#
		Advanced Micro and Nanoscale Material Processing and Analysis Techniques	FI-AFT	E	c	3	2	0	0						#
		Spectroscopic Methods in Material Science	FI-AFT	E	e	3	2	0	0					#		@
		Chemical Methods in Nanotechnology	BMETE11M38	E	e	3	2	0	0					@		#
	Optics and Laser Technology
		Optics Problem Solving	FI-AFT	E	c	2	0	2	0					#		@
		Laser Technology	FI-AFT	E	c	3	2	0	0					#		@
		Microscopy	FI-AFT	E	c	3	2	0	0						#
		Optical Metrology	FI-FT	E	e	3	2	0	0						#
	Further Elective Courses
		Measurement Control Project Work in LabVIEW Environment*	BMETE11AF39	E	c	3	0	0	2					#		@
		Real-Time Control and Monitoring of Experimental Systems Using LabVIEW FPGA*		E	c	5	0	0	3						#
		Data Science Aided Measurements*	FI-FT	E	c	3	0	0	2						#
		Computer Solution of Technical and Physical Problems*	BMETE11AF41	E	c	3	0	0	2					#		@
		The Fundamentals and Applications of Finite Element Modeling*		E	c	3	0	0	2						#
	Theoretical Physics Block (available as elective subjects upon request; recommended for those considering MSc in a theoretical physics direction)
		Theoretical Mechanics		E	e	5	2	2	0					#
		Theoretical Electrodynamics		E	e	5	2	2	0						#
		Advanced Mechanics		E	e	2	2	0	0						#
		Advanced Mechanics Project Work		E	c	4	0	1	0						#
		Advanced Electrodynamics		E	c	2	2	0	0							#
		Advanced Electrodynamics Project Work		E	c	4	0	1	0							#
		Advanced Quantum Mechanics		E	e	2	2	0	0						#
		Advanced Quantum Mechanics Project Work		E	c	4	0	1	0						#

Physicist-Engineer - Nuclear Technologies and Sustainable Energetics Specialization (NT&SE)
Specialization Responsible: Dr. Máté Szieberth
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Type: C - compulsory, E - elective modules, O - optional
Grading: e - examination, c - coursework grade, a - audit
*# - Proposed semester, accepted in the block of elective subjects on engineering, & - criterium subject of the Physicist MSc Nuclear Technology specialization**

Subject			Code	Type	Eval	Credit	Hours			Proposed Semester
Subject			Code	Type	Eval	Credit	Lect	Prac	Lab	1	2	3	4	5	6	7
COMPULSORY COURSES						19
	NT&SE Specialization laboratory I.		BMETENTBsPSPL1-00	C	c	3	0	0	2						#
	NT&SE Specialization laboratory II.		BMETENTBsPSPL2-00	C	c	3	0	0	2							#
	Sustainable Development and Energetics		BMETE80AF06	C	c	3	2	0	0					#
	Monte Carlo methods&		BMETE80MFAD	C	e	4	2	1	0					#
	Radiation Protection&		BMETE80MD06	C	e	3	2	0	0						#
	Radiation Detection and Measurement&		BMETE80AF42	C	e	3	2	0	0						#
*ELECTIVE COURSES (Asterisked () courses are also accepted in the block of elective subjects on engineering)**						16
	Nuclear Energy subject group
		Reactor Physics Fundamentals	MX00/2	E	c	3	1	1	0					#
		Thermal Hydraulics of Nuclear Power Plants*,&	BMETE80MX03	E	c	5	3	1	0						#
		Nuclear Power Plants*	BMETE80MX04	E	c	5	3	1	0						#
		Introduction to CFD Methods*	BMETE80AF37	E	c	4	1	0	2						#
		Reactor Physics#	BMETE80MD08	E	e	5	3	1	0							#
		Safety of Radioactive Wastes	BMETE80MF31	E	c	4	3	0	1							#
		NPP simulations exercises	BMETE80MF17	E	c	3	0	0	2							#
	Medical Physics subject group
		Medical Imaging Systems	BMETE80AF35	E	c	3	2	0	0						#
		Impact of Ionizing Radiation on the Living Environment	BMETENTMsOISHE-00	E	c	3	2	0	0							#
		Radiobiology	BMETE80MF70	E	c	3	2	1	0							#
		Medical imaging	BMETE80MF91	E	e	5	3	1	0							#
	Fusion Research subject group
		Introduction to Fusion Plasma Physics	BMETE80MF19	E	e	3	2	0	0						#
		Fusion Devices	BMETE80NE02	E	c	4	2	0	1							#
		Chapters of High Temperature Experimental Plasma Physics 1	BMETE80MF45	E	e	3	2	0	0							#
	Sustainable Energetics Subject Group
		Renewable energy technologies *	BMEGEENBEMG	E	c	4	3	0	1					#
		Life Cycle Assessment*	BMEGEENBVEE	E	e	3	2	0	1					#
		Energy Processes and Equipment*	BMEGEENBGEB	E	c	5	3	0	2					#
	Other subjects
		Mathematical Methods of Experimental Data Evaluation	BMETE80AF38	E	e	3	2	0	0					#
		Introduction to Geophysics	BMETE80AF44	E	c	3	2	0	0					#
	Theoretical Physics Block (available as elective subjects upon request)
		Quantum Physics		E	e	6	2	2	0					#
		Theoretical Electrodynamics		E	e	5	2	2	0						#