Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory
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Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory
Summary
Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory is a doctoral thesis[1].
Key Facts
- Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory authored Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory — author (P50): Nathan Pages[2].
- Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory's instance of is recorded as Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory — instance of (P31): doctoral thesis[3].
- Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory's publisher is recorded as Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory — publisher (P123): ResearchSpace@Auckland[4].
- Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory's copyright license is recorded as Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory — copyright license (P275): Creative Commons Attribution-NonCommercial-ShareAlike 3.0 New Zealand[5].
- Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory's country of origin is recorded as Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory — country of origin (P495): New Zealand[6].
- Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory's publication date is recorded as +2020-00-00T00:00:00Z[7].
- Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory's main subject is recorded as Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory — main subject (P921): mathematics[8].
- Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory's work available at URL is recorded as https://researchspace.auckland.ac.nz/handle/2292/51956[9].
- Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory's Handle ID is recorded as 2292/51956[10].
- Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory's title is recorded as Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory[11].
- Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory's copyright holder is recorded as Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory — copyright holder (P3931): Nathan Pages[12].
- Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory's thesis submitted to is recorded as Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory — thesis submitted to (P4101): University of Auckland[13].
- Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory's on focus list of Wikimedia project is recorded as Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory — on focus list of Wikimedia project (P5008): NZThesisProject[14].
- Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory's copyright status is recorded as Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory — copyright status (P6216): copyrighted[15].
- Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory's online access status is recorded as Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory — online access status (P6954): open access[16].
- Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory's thesis committee member is recorded as Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory — thesis committee member (P9161): Vivien Kirk[17].
- Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory's thesis committee member is recorded as Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory — thesis committee member (P9161): James Sneyd[18].
Body
Designation and Status
Models of Calcium Dynamics: Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory's instance of is recorded as Analysis Using Physiologically Accurate Simulations and Non-Standard Geometric Singular Perturbation Theory — instance of (P31): doctoral thesis[3].