Products related to Membrane potential:
-
Potential
Price: 13.99 £ | Shipping*: 3.99 £ -
Killer Potential
'Compelling, creepy and cool . . . a Thelma & Louise for our times'PAULA HAWKINS, author of The Girl on the Train'Fierce, fun, wild and enraging'CHRIS WHITAKER, author of All The Colours of the Dark'Razor-sharp writing, frenzied pace, twists and turns - prepare for impact!'BONNIE GARMUS, author of Lessons In Chemistry 'Pump this into my veins.A modern day Thelma & Louise for lesbians who make Das Kapital jokes'MADELEINE GRAY, author of Green DotDecisions were made: I made them.Violence was done: I did it. Crime scenes were fled: I fled them. People were hurt: I hurt them. Someone was loved: I loved them. Not everything I did was bad. Just most of it. A scholarship kid with straight As and massive potential, Evie Gordon always thought she was special, that she'd be someone. But after graduating from an elite university, she finds herself drowning in debt and working as a private tutor to the children of Los Angeles's super-rich. Everything changes when Evie arrives at the Victor family's lavish mansion for her weekly lesson to discover, not the bored teenager she excepted, but pure carnage: the bloody remains of Mr and Mrs Victor sullying their beautiful back garden, and a woman crying for help from within the walls of the house. Within moments, Evie and the woman go from bystanders to suspects to fugitives. Suddenly at the heart of a nation-wide manhunt, Evie finds that her mysterious companion, who refuses to speak, has quickly become the most important person in her upside-down life.Meanwhile, the press runs wild with Evie's story - anointing her the new Charles Manson, a blood thirsty ninety-nine percenter looking to start a class war. Evie is - finally and disastrously - someone. Droll, dark and deeply insightful, Killer Potential is an edge-of-your-seat break-neck ride, a queer love story, and a darkly funny critique of the horrors of late capitalism and how the stories we're sold about our potential can shape the course of our lives.
Price: 16.99 £ | Shipping*: 3.99 £ -
Electrochemical Membrane Technology
Electrochemical Membrane Technology includes a comprehensive discussion of timely topics surrounding electrochemical membrane technologies, including SWOT analysis of each electrochemical membrane technology, along with a discussion on energy production.The book covers both theoretical and experimental studies on electrochemical membrane technologies and applications, making it ideal for chemical and environmental engineers, professors and other university teachers, research scientists, graduate students, water treatment managers, research institutions, and R&D departments of industries involved in sustainable water treatment and coproduction of valuable products from water treatment technologies.
Price: 170.00 £ | Shipping*: 0.00 £ -
Potential History : Unlearning Imperialism
In this theoretical tour-de-force, renowned scholar Ariella Aïsha Azoulay calls on us to recognize the imperial foundations of knowledge and to refuse its strictures and its many violences. Azoulay argues that the institutions that make our world, from archives and museums to ideas of sovereignty and human rights to history itself, are all dependent on imperial modes of thinking.Imperialism has segmented populations into differentially governed groups, continually emphasised the possibility of progress while trying to destroy what came before, and voraciously sought out the new by sealing the past away in dusty archival boxes and the glass vitrines of museums. By practising what she calls potential history, Azoulay argues that we can still refuse the imperial violence that shattered communities, lives, and worlds, from native peoples in the Americas to the Congo ruled by Belgium's brutal King Léopold II, from dispossessed Palestinians in 1948 to displaced refugees in our own day.In Potential History, Azoulay travels alongside historical companions - an old Palestinian man who refused to leave his village in 1948, an anonymous woman in war-ravaged Berlin, looted objects and documents torn from their worlds and now housed in archives and museums - to chart the ways imperialism has sought to order time, space, and politics. Rather than looking for a new future, Azoulay calls upon us to rewind history and unlearn our imperial rights, to continue to refuse imperial violence by making present what was invented as "past" and making the repair of torn worlds the substance of politics.
Price: 30.00 £ | Shipping*: 0.00 £
-
What is the membrane potential?
The membrane potential is the difference in electric charge between the inside and outside of a cell membrane. It is created by the unequal distribution of ions, such as sodium, potassium, chloride, and calcium, across the membrane. This difference in charge allows the cell to generate and transmit electrical signals, which are essential for processes such as nerve conduction, muscle contraction, and cell communication. The membrane potential is maintained by the activity of ion channels and pumps in the cell membrane.
-
How is the resting potential and membrane potential created?
The resting potential is created by the unequal distribution of ions across the cell membrane. This is maintained by the sodium-potassium pump, which actively transports sodium ions out of the cell and potassium ions into the cell. The membrane potential is created by the separation of charges across the cell membrane, with the inside of the cell being more negatively charged compared to the outside. This is due to the presence of negatively charged proteins inside the cell and the movement of ions across the membrane.
-
What is the resting potential and the membrane potential?
The resting potential is the electrical potential difference across the membrane of a neuron when it is not being stimulated. It is typically around -70 millivolts and is maintained by the unequal distribution of ions across the membrane. The membrane potential refers to the difference in electrical charge between the inside and outside of the cell membrane, which is essential for the transmission of signals in neurons.
-
What is the difference between equilibrium potential, resting potential, and membrane potential?
Equilibrium potential is the membrane potential at which the net flow of a particular ion across the membrane is zero. Resting potential is the membrane potential of a cell when it is at rest, typically around -70 millivolts in neurons. Membrane potential refers to the difference in electrical charge between the inside and outside of a cell, which is maintained by the selective permeability of the cell membrane to different ions. In summary, equilibrium potential is the potential at which there is no net flow of ions, resting potential is the potential of a cell at rest, and membrane potential is the overall potential across the cell membrane.
Similar search terms for Membrane potential:
-
1Sheet Synthetic Paper Stickers Membrane Cultivation Waterproof Breathable Membrane Sterile Mesh
1Sheet Synthetic Paper Stickers Membrane Cultivation Waterproof Breathable Membrane Sterile Mesh
Price: 3.37 £ | Shipping*: 0.79 £ -
Membrane Proteins : Volume 128
Membrane Proteins, Volume 128 in the Advances in Protein Chemistry and Structural Biology series highlights new advances in the field, with this new volume presenting interesting chapters written by an international board of authors.
Price: 119.00 £ | Shipping*: 0.00 £ -
Canon POTENTIAL MEASURING PCB
Canon POTENTIAL MEASURING PCB
Price: 302.42 £ | Shipping*: 0.00 £ -
Cointro10l heater membrane 398C0220
Cointro10l heater membrane 398C0220
Price: 12.09 € | Shipping*: 13.73 €
-
What is the difference between resting potential and membrane potential?
Resting potential refers to the membrane potential of a neuron when it is not being stimulated or sending signals. It is typically around -70 millivolts and represents the baseline electrical charge of the neuron. Membrane potential, on the other hand, refers to the difference in electrical charge between the inside and outside of a neuron's cell membrane at any given moment, including both resting and active states. In summary, resting potential is a specific type of membrane potential that represents the neuron's baseline electrical state when not actively transmitting signals.
-
How is the resting potential and the membrane potential formed?
The resting potential is the electrical potential difference across the membrane of a neuron when it is not being stimulated. This potential is formed by the unequal distribution of ions across the membrane, with more sodium ions outside the cell and more potassium ions inside the cell. The membrane potential is formed by the movement of these ions through ion channels in the membrane, which are selectively permeable to specific ions. The resting potential is maintained by the sodium-potassium pump, which actively transports sodium out of the cell and potassium into the cell, helping to maintain the concentration gradients of these ions.
-
What is the difference between resting membrane potential and equilibrium potential?
Resting membrane potential is the electrical charge difference across the plasma membrane of a cell when the cell is at rest. It is typically around -70 millivolts in neurons and is maintained by the unequal distribution of ions across the membrane. On the other hand, equilibrium potential is the membrane potential at which the net movement of a particular ion across the membrane is zero. It is determined by the concentration gradient and the electrical gradient for a specific ion. While resting membrane potential is the overall charge across the membrane at rest, equilibrium potential is the specific potential at which a particular ion is balanced in its movement across the membrane.
-
How are stimulus intensity and membrane potential related?
Stimulus intensity and membrane potential are related in that the strength of a stimulus can directly affect the membrane potential of a cell. When a stimulus is applied to a cell, it can cause a change in the membrane potential, either depolarizing or hyperpolarizing the cell. The magnitude of the change in membrane potential is directly related to the intensity of the stimulus. A stronger stimulus will typically result in a larger change in membrane potential, while a weaker stimulus will result in a smaller change. This relationship between stimulus intensity and membrane potential is important for the transmission of signals in the nervous system and for the generation of action potentials.
* All prices are inclusive of VAT and, if applicable, plus shipping costs. The offer information is based on the details provided by the respective shop and is updated through automated processes. Real-time updates do not occur, so deviations can occur in individual cases.