Search results for: FACIAL MOTION CAPTURE - Bridge of Knowledge

Your account

login

Search

Search results for: FACIAL MOTION CAPTURE

Search results for: FACIAL MOTION CAPTURE

  • 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...

  • 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...

  • 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,...

  • Mathematical and numerical modelling,W,IDE-EMSS,IIst,sem.01,lato,2023/24 (PG_00057379)

    e-Learning Courses
    • K. J. Kaliński

    Modelling of controlled mechanical systems by the mixed method of rigid and flexible finite elements: The finite element volume problems. Dynamics of multibody systems. Modelling of stationary closed loop systems. Modelling of systems whose configuration changes with time. Modelling of nonlinear controlled systems. Optimal control at energy performance index: Control of continuous nonstationary systems in domain of generalised...

  • Mathematical and Numerical Modelling, L, IDE IInd, sem.01, summer, 2022/23(00057379)

    e-Learning Courses
    • K. J. Kaliński

    Modelling of controlled mechanical systems by the mixed method of rigid and flexible finite elements: The finite element volume problems. Dynamics of multibody systems. Modelling of stationary closed loop systems. Modelling of systems whose configuration changes with time. Modelling of nonlinear controlled systems. Optimal control at energy performance index: Control of continuous nonstationary systems in domain of generalised...

  • Techniki amplifikacji kwasów nukleinowych -2022-2023

    e-Learning Courses
    • B. Krawczyk
    • I. Sinkiewicz

    Specjalność: Biotechnologia molekularna (WCh), II stopnia, stacjonarne Prowadzący wykład: dr hab. Beata Krawczyk, prof. uczelni - forma stacjonarna Prowadzący laboratoria: mgr inż. Bartosz Ostrowski - zajęcia stacjonarne na PG, sala 17 WCH C. Kontakt: (58) 347-23-83 Beata Krawczyk (wykłady): e-mail: beata.krawczyk@pg.edu.pl; WCH B; p.218; Bartosz Ostrowski, WCH B, p.218 tel. (58) 347-13-83 Konsultacje: stacjonarnie we wtorki ...

  • Techniki amplifikacji kwasów nukleinowych -2021-2022

    e-Learning Courses
    • B. Krawczyk
    • I. Sinkiewicz
    • M. Burzyńska
    • A. Brillowska-Dąbrowska

    Specjalność: Biotechnologia molekularna (WCh), II stopnia, stacjonarne Prowadzący wykład: dr hab. Beata Krawczyk, prof. uczelni - stacjonarnie na uczelni Prowadzący laboratoria: mgr inż. Magdalena Fordon - zajęcia stacjonarne na PG, sala 17 WCH C. Kontakt: (58) 347-23-83 Beata Krawczyk (wykłady): e-mail: beata.krawczyk@pg.edu.pl; WCH B; p.218; Magdalena Fordon (laboratoria): magda.fordon@gmail.com; WCH B; p.218 Konsultacje:...

  • Techniki Amplifikacji Kwasów Nukleinowych -2023-2024

    e-Learning Courses
    • B. Krawczyk
    • I. Sinkiewicz

    Specjalność: Biotechnologia molekularna (WCh), II stopnia, stacjonarne Prowadzący wykład: dr hab. Beata Krawczyk, prof. uczelni - forma stacjonarna Prowadzący laboratoria: mgr inż. Bartosz Ostrowski - zajęcia stacjonarne na PG, sala 209 WCH B (bud.7); II piętro. Kontakt: (58) 347-23-83 Beata Krawczyk (wykłady): e-mail: beata.krawczyk@pg.edu.pl; WCH B; p.217;tel. (58) 347-23-83 Bartosz Ostrowski, WCH B, p.218 tel. (58) 347-13-83 Konsultacje:...