Thermodynamic System — types?
Isolated, adiabatic, closed, and open.
Isolated system — exchange?
No matter or energy exchange.
Open system — exchange?
Both matter and energy exchange.
Cell as open system — role?
Exchanges matter, energy, info to maintain homeostasis.
Intensive variables — examples?
Pressure, temperature, potential.
Extensive variables — examples?
Volume, moles, total energy.
First law — equation?
dU = dQ + dW, energy conserved.
Cell metabolism — law?
Follows first law; energy transforms, conserved.
Electrochemical potential — driver?
Ion movement across membranes.
Flux coupling — concept?
Interconnected transfer of matter, energy, info.
Fick's first law — describes?
Diffusion flux proportional to concentration gradient.
Fick's second law — describes?
Change in concentration over time.
Water movement — driven by?
Osmotic and hydrostatic pressures.
Osmosis — movement?
Water across semi-permeable membrane, low to high solute.
Electrolyte diffusion — equilibrium?
Net ionic flux zero at equilibrium potential.
Membrane permeability — depends on?
Membrane structure and molecule properties.
Ion channels — properties?
Selective, gated, conduct ionic currents.
Active transport — energy?
Requires energy input, moves against gradient.
Primary active transport — example?
Ca2+-ATPase, proton pump.
Epithelial transport — mechanisms?
Passive diffusion, facilitated, active, co-transport.
Metti alla prova le tue conoscenze con 10 domande su Cellular Transport and Thermodynamics.
1. What is an open thermodynamic system?
2. Who initially conceptualized the cell as an open thermodynamic system in the 1960s?
Ripassa il corso completo nella scheda di revisione per Cellular Transport and Thermodynamics.
Vedi la scheda di revisione →Importa il tuo corso e l'AI genera flashcard in 30 secondi.
Generatore di flashcard