Search results for: mechanics

• Technical Mechanics

  e-Learning Courses

  • K. Wołoszyk
  • P. M. Bielski

• Technical Mechanics

  e-Learning Courses

  • K. Wołoszyk
  • P. M. Bielski

• English for Engineering Mechanics

  e-Learning Courses

  • M. Skowronek

  The activity of structural mechanics students' community FOREVER YOUNG aimed at improving practical skills in technical English

• Introduction to quantum mechanics

  e-Learning Courses

  • J. Rybicki

• Fluid Mechanics, PG_0004975 laboratory 2022

  e-Learning Courses

  • M. Krężelewski
  • M. Banaszek

• Introduction to quantum mechanics 2022/2023

  e-Learning Courses

  • S. Winczewski

  Introduction to quantum mechanics, kierunek: Nanotechnologia, specjalność: Nanostructures and computer simulations in material science, II stopień, semestr 1

• [IMe] Advanced numerical methods in mechanics

  e-Learning Courses

  • K. Tesch
  • R. Jankowski
  • A. Żak

  {mlang pl} Dyscyplina: inżynieria mechaniczna Zajęcia obowiązkowe dla doktorantów I i II roku Prowadzący:  dr hab. inż. Krzysztof Tesch, prof. PG, dr hab. inż. Arkadiusz Żak, prof. PG Liczba godzin: 45 Forma zajęć: wykład {mlang} {mlang en} Discipline: mechanical engineering Obligatory course for 1st and 2nd-year PhD students Academic teachers: dr hab. inż. Krzysztof Tesch, prof. PG, dr hab. inż. Arkadiusz Żak, prof....

• [IMe] Advanced numerical methods in mechanics

  e-Learning Courses

  • K. Tesch
  • J. Kropiwnicki
  • A. Żak

  {mlang pl} Dyscyplina: IMe Zajęcia obowiązkowe dla doktorantów I roku Prowadzący:  K. Tesch, A. Żak Liczba godzin: 45 Forma zajęć: wykład/laboratorium {mlang} {mlang en} Discipline: IMe Obligatory course for 1st year PhD students Academic teacher: K. Tesch, A. Żak Total hours of training: 45 teaching hours Course type: lecture/Laboratories {mlang}    

• [IMe] Advanced numerical methods in mechanics

  e-Learning Courses

  • K. Tesch
  • A. Żak

  {mlang pl} Dyscyplina: IMe Zajęcia obowiązkowe dla doktorantów I roku Prowadzący:  K. Tesch, A. Żak Liczba godzin: 45 Forma zajęć: wykład/laboratorium {mlang} {mlang en} Discipline: IMe Obligatory course for 1st year PhD students Academic teacher: K. Tesch, A. Żak Total hours of training: 45 teaching hours Course type: lecture/Laboratories {mlang}

• [IMe] Advanced numerical methods in mechanics

  e-Learning Courses

  • K. Tesch
  • A. Żak

  {mlang pl} Dyscyplina: IMe Zajęcia obowiązkowe dla doktorantów I roku Prowadzący:  K. Tesch, A. Żak Liczba godzin: 45 Forma zajęć: wykład/laboratorium {mlang} {mlang en} Discipline: IMe Obligatory course for 1st year PhD students Academic teacher: K. Tesch, A. Żak Total hours of training: 45 teaching hours Course type: lecture/Laboratories {mlang}    

• [IMe] Advanced numerical methods in mechanics

  e-Learning Courses

  • K. Tesch
  • A. Żak

  {mlang pl} Dyscyplina: IMe Zajęcia obowiązkowe dla doktorantów I roku Prowadzący:  K. Tesch, A. Żak Liczba godzin: 45 Forma zajęć: wykład/laboratorium {mlang} {mlang en} Discipline: IMe Obligatory course for 1st year PhD students Academic teacher: K. Tesch, A. Żak Total hours of training: 45 teaching hours Course type: lecture/Laboratories {mlang}

• Structural design and mechanics I (2022/2023)

  e-Learning Courses

  • M. Zielińska

• Structural Design and Mechanics I 2023/2024

  e-Learning Courses

  • T. Zybała

  Learning about the functioning of bar systems and preparing their static schemes, solving statically determinate bar systems (beams, frames, trusses).

• Advanced Mechanics of Marine Structures II W2021/22

  e-Learning Courses

  • P. Dymarski

  Lecture and Laboratory classes Advanced Mechanics of Marine Structures II W2021/22

• Structural design and mechanics,**II sem. 2021/2022

  e-Learning Courses

  • M. Zielińska

• Structural design and mechanics,**II sem. 2022/2023

  e-Learning Courses

  • M. Zielińska

• Structural design and mechanics II, sem. 2023/2024

  e-Learning Courses

  • T. Zybała

• Structural design and mechanics I ***(2021/2022 lato)

  e-Learning Courses

  • M. Zielińska

• Fluid Mechanics PG 00049759, Laboratorium, sem. 4, lato 2023

  e-Learning Courses

  • M. Krężelewski
  • M. Banaszek

• Fluid Mechanics PG 00049759, Laboratorium, sem. 4, lato 2024

  e-Learning Courses

  • M. Krężelewski
  • M. Banaszek

• Mechanics of Materials, MSc, 2022/2023, Summer, [L,T] (PG_00057378)

  e-Learning Courses

  • B. Rozmarynowski
  • P. M. Bielski

• Mechanics I, T, DaPE, sem. 02, summer 21/22, (PG_00050273)

  e-Learning Courses

  • G. Banaszek

  Teaching students the basic laws of mechanics and develope skills tosolve practical problems in the field of statics and kinematics.

• Fluid Mechanics PG 00049759 Wykład+Ćwiczenia, sem. 4, lato 2024

  e-Learning Courses

  • M. Krężelewski
  • O. Kazimierska

• Fluid Mechanics and Hydraulics EE Msc sem. I r.a. 22/23

  e-Learning Courses

  • P. Zima
  • A. M. Mustafa

  Basic definitions. Physical properties of liquids. Forces acting on fluids. Hydrostatics - basic equations. Pressure on a flat and curved wall. Buoyancy. Archimedes' law. Balance of submerged bodies. The balance of floating bodies. Hydrodynamics. Hydrodynamic quantities. Continuity equation for the liquid stream. Bernoulli equation. Basic laws of hydrodynamics. Equation of mass behavior, preservation of the amount of motion, Bernoulli's...

• Fluid Mechanics and Hydraulics EE Msc sem. I r.a. 23/24

  e-Learning Courses

  • P. Zima

  Basic definitions. Physical properties of liquids. Forces acting on fluids. Hydrostatics - basic equations. Pressure on a flat and curved wall. Buoyancy. Archimedes' law. Balance of submerged bodies. The balance of floating bodies. Hydrodynamics. Hydrodynamic quantities. Continuity equation for the liquid stream. Bernoulli equation. Basic laws of hydrodynamics. Equation of mass behavior, preservation of the amount of motion, Bernoulli's...

• Mechanics I, W/C, MiBM, sem. 02, lato 22/23 (PG_00050273)

  e-Learning Courses

  • O. Nosko

  The course provides students with basic knowledge of Classical Mechanics. Terms, assumptions, principles and methods of Statics, Kinematics and Kinetics are treated. General methods based on the principles of conservation of momentum and energy are considered for a particle, a body and a system of bodies. The main emphasis is on the development of skills to efficiently schematise, solve and analyse typical problems.

• Mechanics II, W/C, MiBM, sem. 03, zima 22/23 (PG_00055119)

  e-Learning Courses

  • O. Nosko

  The course provides students with basic knowledge of Classical Mechanics. Terms, assumptions, principles and methods of Statics, Kinematics and Kinetics are treated. General methods based on the principles of conservation of momentum and energy are considered for a particle, a body and a system of bodies. The main emphasis is on the development of skills to efficiently schematise, solve and analyse typical problems.

• Mechanics II, W/C, ZiIP, sem. 03, zima 23/24 (PG_00055119)

  e-Learning Courses

  • O. Nosko

  The course provides students with basic knowledge of Classical Mechanics. Terms, assumptions, principles and methods of Statics, Kinematics and Kinetics are treated. General methods based on the principles of conservation of momentum and energy are considered for a particle, a body and a system of bodies. The main emphasis is on the development of skills to efficiently schematise, solve and analyse typical problems.

• Mechanics I, W/C, ZiIP, sem. 02, lato 23/24 (PG_00050273)

  e-Learning Courses

  • O. Nosko

  The course provides students with basic knowledge of Classical Mechanics. Terms, assumptions, principles and methods of Statics, Kinematics and Kinetics are treated. General methods based on the principles of conservation of momentum and energy are considered for a particle, a body and a system of bodies. The main emphasis is on the development of skills to efficiently schematise, solve and analyse typical problems.

• Building Mechanics I ERASMUS (PG_00049121) 2019/2020 - 2nd sem. of bachelor studies

  e-Learning Courses

  • M. Kwasek

• Fluid Mechanics, LEC/LAB, EaPE (Dezhou), sem.5, winter 23/24 (PG_00059698)

  e-Learning Courses

  • M. Banaszek

  The aim of the course is to identify and demonstrate knowledge of the major concepts of fluid mechanics.

• Fluid Mechanics, W/C, EaPE (Dezhou), sem.5, zimowy 23/24 (PG_00059698)

  e-Learning Courses

  • M. Banaszek

  Objective of the subject is to supply the student with the theoretical and practical knowledge, enabling him to solve engineering computational and experimental problems related to fluid mechanics.

• Fluid Mechanics, L/L/E, DaPE, sem. 04, summer 21/22 (PG_00050282)

  e-Learning Courses

  • K. Tesch
  • M. Banaszek

  LECTURES Introduction and basic definitions. Properties of fluids. Models of fluids. Fluids in equilibrium. Determination of hydrostatic forces. Archimedes" law. Methods of fluid flow description. General motion of fluid. Deformation of fluid element. Vortex motion of fluid. Principles of conservation of mass, momentum and energy. Balance of entropy. Navier-Stokes equation. Bernoulli equation. Similarity of flow phenomena. Potential...

• Technical Mechanics 2 (PG_00049753), I stop, En, [W,C], zima 22/23

  e-Learning Courses

  • B. Rozmarynowski

  Lectures and tutorials devoted to basic issues of Strength of Materials (stress and strain states, the Hook's law, geometrical properties of an area, bending, shearing, torsion, deflection lines  of beams, buckling and yielding criteria).

• Fluid Mechanics, W/L/C, DaPE, sem. 4, letni 22/23 (PG_00050282)

  e-Learning Courses

  • K. Tesch
  • M. Banaszek

• Fluid Mechanics L/E/L, DaPE, sem. 3, summer 23/24 (PG_00050282)

  e-Learning Courses

  • K. Tesch
  • M. Banaszek
  • M. Saqib

• Mechanics of materials (PG_00057378), W/Ć, BM, II stop., sem1,3, lato, 2023/24

  e-Learning Courses

  • B. Rozmarynowski
  • P. M. Bielski

  The aim of this course is providing knowledge in the field of analysis and solving problems of mechanics and strength of one-dimensional systems (bars, beams, frames) and selected two-dimensional systems (shields, plates); preparing the student to solve problems involving complex cases of material strength; developing the ability to assess the stability of structural elements (forms of stability loss, critical forces); consolidation...

• Advanced Mechanics of Marine Structures I, MSc, Summer 2022-2023, [L,T], PG_00051723

  e-Learning Courses

  • B. Rozmarynowski

  1.  Literature overview,  definition of marine and offshore structures, ocean engineering technologies and mechanical aspects, structural systems applied, jack-up drilling platforms and structural elements. 2. Tensor algebra fundamentals,  stress and small strain states of a solid, constitutive relations. 3. SDOF and MDOF dynamic systems, damping and added masses in offshore vibrations,  generalised eigenvalue problem, forced vibrations...

• Mechanika płynów, W/L/C, MiBM, sem. 04, letni 21/22 (PG_00050289) Fluid Mechanics

  e-Learning Courses

  • K. Tesch
  • A. Butterweck
  • K. Kosowski
  • W. Włodarski
  • M. Banaszek

• Biomimetics in Fluid Mechanics with practical application using CFD, S-30, WIMiO, Energetyka, II st., sem. 03, stacjonarne, (PG_00060130), semestr letni 2022/2023

  e-Learning Courses

  • J. Kropiwnicki

  Wykład wprowadza do procesu biomimetycznego, systematycznej procedury mającej na celu wykorzystania w technice rozwiązań z natury. Szczególny nacisk położony jest na zastosowania w mechanice płynów.

• Strength of Materials I,Lectures,DAPE,fall 22-23(PG_00055150)

  e-Learning Courses

  • W. Wojnicz

  The aim of the subject is to acquire knowledge related to the fundamentals of Mechanics of Materials

• Strength of Materials I,Lectures,DAPE,fall 23-24(PG_00055150)

  e-Learning Courses

  • W. Wojnicz

  The aim of the subject is to acquire knowledge related to the fundamentals of Mechanics of Materials

• Strength of Materials II,Lectures,DAPE,spring 22-23(PG_00050281)

  e-Learning Courses

  • W. Wojnicz

  The aim of the subject is to acquire knowledge related to the advanced fundamentals of Mechanics of Materials

• Strength of Materials I,Lectures,DAPE,fall 23-24(PG_00055150)

  e-Learning Courses

  • W. Wojnicz

  The aim of the course is to acquire knowledge referring to the Mechanics of Materials (Strength of Materials)

• Theory of Elasticity and Plasticity - Civil Engineering, sem. I

  e-Learning Courses

  • M. Skowronek

  Preliminaries in Solid Body Mechanics focused on 2D and 3D engineering structures, in analytical approach

• Strength of Materials II,Lectures,DAPE,spring 21-22 (PG_00050281)

  e-Learning Courses

  • W. Wojnicz

  The aim of the subject is to acquire knowledge related to the strength of materials II (mechanics of material, part 2)

• Mechanika materiałów i biomateriałów,Wykład,IMM II,letni 2023-2024 (PG_00057486)

  e-Learning Courses

  • W. Wojnicz

  Opanowanie wiedzy i umiejętności rozwiązywania zaawansowanych zagadnień mechaniki materiałów i biomateriałówAcquiring knowledge and skills of solving advanced problems of mechanics of materials and biomaterials

• Fundamentals of Steam and Gas Turbines OASIV

  e-Learning Courses

  • J. Głuch

  Application of turbines in industry and sea power plants. Basic thermodynamics and fluid flow mechanics in turbomachinery. Steam turbine power cycle and plants. Gas turbine power cycle and plants. Turbine blading systems operation.

• Gravity-related research (2020/21)

  e-Learning Courses

  • A. Dąbrowski
  • E. Wittbrodt

  The goal of the subject is to extend of the knowledge gained in the framework of general mechanics (statics, kinematics, dynamics). Students will be familiarized with the description of the kinematics and dynamics of motion in typical gravity-related research conditions (microgravity in parabolic flights, drop towers, sounding rockets) as well as gravity-related research platforms, its opportunities and limitations. Additionally,...

• Gravity-related research (Engineering and Management of Space Systems) 21/22

  e-Learning Courses

  • E. Wittbrodt

  The goal of the subject is to extend of the knowledge gained in the framework of general mechanics (statics, kinematics, dynamics). Students will be familiarized with the description of the kinematics and dynamics of motion in typical gravity-related research conditions (microgravity in parabolic flights, drop towers, sounding rockets) as well as gravity-related research platforms, its opportunities and limitations. Additionally,...

• 2022-2023 - Wytrzymałość materiałów II, PG_00040052

  e-Learning Courses

  • M. K. Gerigk

  Opanowanie wiedzy i umiejętności rozwiązywania złożonych zagadnień wytrzymałości prętów, powłok oraz płyt, mechaniki pękania i wytrzymałości zmęczeniowej, drgań prętów, oraz wybranych zastosowań metody elementów skończonych. The aim of the lectures is to deliver to the students the knowledge and abilities to solve the complex problems concerning the bars, shells, 3D structures, mechanics of cracking and fatique strength, vibrations...

• Water Resources Management - Winter Semester 2021-2022

  e-Learning Courses

  • T. Kolerski
  • A. M. Mustafa

  Water Resources Management as defined for purpose of this course includes both water use and water excess management. The fundamental water resources engineering processes are the hydrologic processes and the hydraulic processes. The common threads that relate to the explanation of these processes are the fundamentals of fluid mechanics. The hydrologic processes include rainfall, evaporation, infiltration, rainfall-runoff and routing,...

• [NF] Physics research methods. Part III

  e-Learning Courses

  • P. Możejko

  Kurs realizowany wspólnie dla doktorantów szkoły doktorskiej i studiów doktoranckich The course is  conducted jointly for PhD students of the doctoral school and doctoral studies Franco Bagnoli, University of Florence, Italy - "Thermodynamics, Statistical Mechanics, and Kinetic Gas Theory  https://enauczanie.pg.edu.pl/moodle/course/view.php?id=5259 Course type: lecture Total hours of training (part III): 15 teaching hours

• [NF] Physics research methods. Part II.

  e-Learning Courses

  • P. Możejko

  Kurs realizowany wspólnie dla doktorantów szkoły doktorskiej i studiów doktoranckich The course is  conducted jointly for PhD students of the doctoral school and doctoral studies Franco Bagnoli, University of Florence, Italy - "Thermodynamics, Statistical Mechanics, and Kinetic Gas Theory with a computational perspective. https://enauczanie.pg.edu.pl/moodle/course/view.php?id=5259 Course type: lecture Total hours of training...

• Water Resources Management 2022/2023

  e-Learning Courses

  • T. Kolerski
  • A. M. Mustafa

  Water Resources Management as defined for purpose of this course includes both water use and water excess management. The fundamental water resources engineering processes are the hydrologic processes and the hydraulic processes. The common threads that relate to the explanation of these processes are the fundamentals of fluid mechanics. The hydrologic processes include rainfall, evaporation, infiltration, rainfall-runoff and routing,...