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Book Chapter
Series: AIPP Books, Methods
Published: January 2023
10.1063/9780735425279_008
EISBN: 978-0-7354-2527-9
ISBN: 978-0-7354-2524-8
...Zou, R., Song, T., Wang, L., Ye, L., and Wang, Y., “A practical guide to kinetics calculation of protein conformational change using frequency adaptive metadynamics,” in A Practical Guide to Recent Advances in Multiscale Modeling and Simulation of Biomolecules, edited by Y. Wang and R...
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Students' conceptions about climate <span class="search-highlight">change</span> resulting from the greenhouse ef...
Published: March 2023
FIG. 9.1 Students' conceptions about climate change resulting from the greenhouse effect (top) via sun rays (a) and heat rays (b) and by the ozone hole (bottom) via sun rays (a), perhaps because they become trapped beneath the ozone layer (b). Modified from Figs. 5 and 6 of Niebert and Gropeng... More about this image found in Students' conceptions about climate change resulting from the greenhouse ef...
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(a) Strain in the waveguide resulting in a <span class="search-highlight">change</span> in the effective index. (...
Published: March 2023
FIG. 7.12 (a) Strain in the waveguide resulting in a change in the effective index. (b) Cross-sectional views of different phase shifters implemented using the relative movement of a non-phase matched loading section resulting in a change in the effective index or attenuation due to proximity. (c)... More about this image found in (a) Strain in the waveguide resulting in a change in the effective index. (...
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A typical pictorial question used in questionnaires. This theme is modified...
Published: March 2023
FIG. 1.1 A typical pictorial question used in questionnaires. This theme is modified to include a specific point on the string (like in this picture) or with a change of the medium in the middle. More about this image found in A typical pictorial question used in questionnaires. This theme is modified...
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A schematic of a full Wheatstone bridge circuit with four variable resistor...
Published: March 2023
FIG. 5.2 A schematic of a full Wheatstone bridge circuit with four variable resistors. These resistors represent the piezoresistors mounted on the diaphragm of a MEMS pressure sensor. When the sensor diaphragm remains undeformed, the bridge is balanced, and no signal is detected between points 1 and 3. However, in the presence of an external pressure field, the diaphragm of the sensor deforms, and the resistances of the piezoresistors change. This creates an imbalance in the circuit resulting in a proportional voltage change across the bridge (between points 1 and 3), which is then measured to calculate the pressure changes (Sheela et al.). More about this image found in A schematic of a full Wheatstone bridge circuit with four variable resistor...
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(a) Resistance–strain plot for VO<sub>2</sub> nanobeam on polystyrene subst...
Published: March 2023
FIG. 4.13 (a) Resistance–strain plot for VO2 nanobeam on polystyrene substrate and (b) gauge factor change of VO2 as a function of r tensile and compressive strain ( Hu et al., 2010 ). More about this image found in (a) Resistance–strain plot for VO2 nanobeam on polystyrene subst...
Book Chapter
Series: AIPP Books, Professional
Published: March 2023
10.1063/9780735425477_011
EISBN: 978-0-7354-2547-7
ISBN: 978-0-7354-2544-6
... ( 2009 ). 10.1159/000213891 Amin , T. G. , Converging Perspectives on Conceptual Change. Mapping an Emerging Paradigm in the Learning Sciences , edited by T. G.   Amin and O.   Levrini ( Routledge , London , 2018 ), pp. 129 – 149 . Amin , T. G. and Levrini , O...
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A modeled pendulum in <em>Algodoo</em> with dynamic vector arrows a...
Published: March 2023
FIG. 21.6 A modeled pendulum in Algodoo with dynamic vector arrows as they change throughout the pendulum swing—velocity in black, external forces on the bob in white, and the sum of all external forces in green (left). A constructed “car” in Algodoo with motors on the front and rear wheels ascends a slope (right). Dynamic vector arrows are displayed for the orange box, while the graph above shows the time dependence of the box's gravitational potential energy. More about this image found in A modeled pendulum in Algodoo with dynamic vector arrows a...
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Frequency response of a linear generator for (a) different values of the in...
Published: March 2023
FIG. 9.2 Frequency response of a linear generator for (a) different values of the input force (Y0) and (b) different values of the parasitic damping (ρm) which changes the open circuit quality factor. More about this image found in Frequency response of a linear generator for (a) different values of the in...
Book Chapter
Series: AIPP Books, Methods
Published: January 2023
10.1063/9780735425279_010
EISBN: 978-0-7354-2527-9
ISBN: 978-0-7354-2524-8
...Yik, A. K.-H., Qiu, Y., Unarta, I. C., Cao, S., and Huang, X., “A step-by-step guide on how to construct quasi-Markov state models to study functional conformational changes of biological macromolecules,” in A Practical Guide to Recent Advances in Multiscale Modeling and Simulation...
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The energy gaps measured at Γ and <em>L</em> valley (a) as a functi...
Published: March 2023
FIG. 3.9 The energy gaps measured at Γ and L valley (a) as a function of Sn content in Ge(1−x)Snx alloy (b) as a function of in-plane biaxial compressive strain for in Ge0.92Sn0.08. As seen ∼6.5% Sn in Ge bring the Γ valley down to L valley, thus converting it to direct bandgap (a). Larger compressive strain (>0.32%) change the nature of the bandgap (direct to indirect) (b) ( Gupta et al., 2013a ). More about this image found in The energy gaps measured at Γ and L valley (a) as a functi...
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(a) The figure represents alpha(α) scan performed around BCZT (110) and CFO...
Published: March 2023
FIG. 10.6 (a) The figure represents alpha(α) scan performed around BCZT (110) and CFO (311) reflections of the ME composite and (110) reflection of individual BCZT film. Inset shows the GIXRD scan of the composite at different grazing angles (α = 0.45° 0.50°, and 0.55°). (b) Variation of percent change in Δ peak broadening of BCZT (110) and peak broadening of ME composite BCZT (110) with respect to grazing incidence angle. More about this image found in (a) The figure represents alpha(α) scan performed around BCZT (110) and CFO...
Book Chapter
Series: AIPP Books, Professional
Published: March 2023
EISBN: 978-0-7354-2547-7
ISBN: 978-0-7354-2544-6
...References References Adams , W.   et al. , Phys. Rev. Special Topics: Phys. Educ. Res.   2 , 010101 ( 2006 ). Amin , T. G. , Hum. Dev.   52 , 165 – 197 ( 2009 ). 10.1159/000213891 Amin , T. G. , Converging Perspectives on Conceptual Change. Mapping an Emerging...
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(a)–(c) Binding affinity <span class="search-highlight">changes</span> for step I: mutating from gliadin peptides...
Published: January 2023
FIG. 11.4 (a)–(c) Binding affinity changes for step I: mutating from gliadin peptides to polyalanines and step II: mutating from polyalanines in the presence of glia-α1, glia-α2, and glia-ω1 respectively. Green bars represent ΔΔG for DQ2.5, red bars represent ΔΔG for DQ7.5 and purple bars represent the differences of ΔΔG from the DQ2.5 system to the DQ7.5 system. All error bars represent standard errors. (d) and (e) Changes of DQ2.5 and DQ7.5 contact surfaces with glia-α1, upon mutations from glia-α1 to polyalanines and then to ghost. The gliadin peptide is shown in a stick model. Contact residues at the binding groove of HLA are shown on the cyan surface. Reprinted with permission from Song et al., J. Phys. Chem. B 126 , 5151–5160 (2022). Copyright 2022 American Chemical Society. More about this image found in (a)–(c) Binding affinity changes for step I: mutating from gliadin peptides...