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1-20 of 94 Search Results for
marble
Book Chapter
Series: AIPP Books, Professional
Published: March 2023
10.1063/9780735425477_009
EISBN: 978-0-7354-2547-7
ISBN: 978-0-7354-2544-6
... et al. (2021) obtained similar results. Siersma et al. (2021) and other researchers have argued that this is evidence of learners inappropriately attributing object-like characteristics to radiation (specifically, that it can be accumulated like marbles can be collected...
Book
Series: AIPP Books, Professional
Published: March 2023
10.1063/9780735425477
EISBN: 978-0-7354-2547-7
ISBN: 978-0-7354-2544-6
Book Chapter
Series: AIPP Books, Perspectives
Published: September 2022
10.1063/9780735421721_006
EISBN: 978-0-7354-2172-1
ISBN: 978-0-7354-2173-8
... consider only monatomic gases. In the simplest version of kinetic theory, the microscopic particles are described much like marbles. They are hard spheres whose collisions are “elastic”; i.e., they bounce off each other with no loss of total energy. This is all kinetic (motional) energy. The balls have...
Book Chapter
Series: AIPP Books, Perspectives
Published: September 2022
10.1063/9780735421721_007
EISBN: 978-0-7354-2172-1
ISBN: 978-0-7354-2173-8
... what was not necessary in order to get at the essentials. This reminds us of Michelangelo's answer to the question of how he sculpted. He looked at a block of marble, saw what was not necessary, and chipped it away. Finally, we address Maxwell's fourth equation. To begin, we consider a simpler law...
Images
Published: May 2022
FIG. 9.9 (a) Degradation of CR due to LM/MO frameworks for different sonication durations based on WO3 nanoparticles as benchmark. (b) Degradation of CR due to micro- and nano-sized liquid metal marbles with WO3 nanoparticles in different weight percentages. Reproduced with permission from Zhang et al., Adv. Funct. Mater. 24 (24), 3799–3807 (2014). Copyright 2014 John Wiley and Sons. More about this image found in (a) Degradation of CR due to LM/MO frameworks for different sonication dura...
Images
Published: May 2022
FIG. 9.10 (a) Bulk galinstan droplet in de-ionized water. (b) Suspension of micro- to nano-sized liquid metal marble spheres. SEM images showing (c) the top view of LM/MO frameworks incorporated with Ga2O3 nanoparticles (1 wt. %) and (d) LM/MO frameworks not incorporated with Ga2O3 nanoparticles (the inset shows native oxide nanoplatelets). Reproduced with permission from Zhang et al., ACS Appl. Mater. Interfaces 7 (3), 1943–1948 (2015). Copyright 2015 American Chemical Society. More about this image found in (a) Bulk galinstan droplet in de-ionized water. (b) Suspension of micro- to...
Images
Published: May 2022
FIG. 2.5 Liquid metal composites with a core–shell structure. (a) Free-standing oxidized liquid metal arch. Reproduced with permission from Gao and Liu, Appl. Phys. A 107 (3), 701–708 (2012). Copyright 2012 Springer Nature. (b) HRTEM image showing the core–shell structure of liquid metal droplets. Reproduced with permission from Ren et al., Adv. Funct. Mater. 26 (44), 8111–8118 (2016). Copyright 2016 John Wiley and Sons. (c) Cross-sectional diagram of a liquid metal droplet with thin layers of HfO2, Al2O3, and Gd2O3 on the surface (Zavabeti et al., 2017). (d) Schematic representation of a van der Waals exfoliation technique (Zavabeti et al., 2017). (e) Images of a WO3-powder-coated liquid metal on the wetting (Si) and non-wetting (Teflon) surface. Reproduced with permission from Sivan et al., Adv. Funct. Mater. 23(2), 144–152 (2013). Copyright 2013 John Wiley and Sons. (f) Sequential snapshots of motion of a 2 mm diameter WO3-coated liquid metal marble. Reproduced with permission from Tang et al., Appl. Phys. Lett. 103 , 174104 (2013). Copyright 2013 AIP Publishing. (g) Deformable colorful liquid metal droplets coated with fluorescent particles. (i) Schematic illustration of colorful droplets, (ii) photographs of colorful droplets, and (iii) colored droplets driven by electric field. Reproduced with permission from Liang, ACS Appl. Mater. Interfaces 10 , 1589–1596 (2017). Copyright 2017 American Chemical Society. (h) Water-driven micromotors with a local core–shell structure. Reproduced with permission from Gao, W. et al., ACS Nano 6 , 8432–8438 (2012). Copyright 2012 American Chemical Society. (i) Magnetically controlled liquid metal self-driven motion based on surface Ni plating strategy. Reproduced with permission from Zhang et al., J. Mater. Chem. B 4 , 5349–5357 (2016). Copyright 2016 Royal Society of Chemistry. (j) Self-driving motion on the water surface based on a liquid metal core–shell structure. Reproduced with permission from Chen et al., Sci. China Mater. 62 , 407–415 (2018). Copyright 2018 Springer Nature. More about this image found in Liquid metal composites with a core–shell structure. (a) Free-standing oxid...
Book Chapter
Series: AIPP Books, Principles
Published: May 2022
0
EISBN: 978-0-7354-2479-1
ISBN: 978-0-7354-2476-0
... – 1002 ( 2015 ). 10.1016/j.ijheatmasstransfer.2015.02.029 Sivan , V. , Tang , S. Y. , O'Mullane , A. P. , Petersen , P. , Eshtiaghi , N. , Kalantar-zadeh , K. , “ Liquid metal marbles ,” Adv. Funct. Mater. 23 ( 2 ), 144 – 152 ( 2013 ). 10.1002/adfm.201200837...
Book Chapter
Series: AIPP Books, Principles
Published: May 2022
10.1063/9780735424791_009
EISBN: 978-0-7354-2479-1
ISBN: 978-0-7354-2476-0
... of advanced energy devices, such as solar cells and photodiodes. FIG. 9.9 (a) Degradation of CR due to LM/MO frameworks for different sonication durations based on WO3 nanoparticles as benchmark. (b) Degradation of CR due to micro- and nano-sized liquid metal marbles with WO3...
Book Chapter
Series: AIPP Books, Principles
Published: May 2022
0
EISBN: 978-0-7354-2479-1
ISBN: 978-0-7354-2476-0
... actuation of liquid metal marbles ,” Nanoscale 5 ( 2013 ). 10.1039/C3NR00185G Thomas , C. E. , Kuhn , I. F. , James , B. D. , Lomax , F. D. , and Baum , G. N. , “ Affordable hydrogen supply pathways for fuel cell vehicles ,” Int. J. Hydrogen Energy 23 ( 6 ), 507 – 516...
Book Chapter
Series: AIPP Books, Principles
Published: May 2022
10.1063/9780735424791_002
EISBN: 978-0-7354-2479-1
ISBN: 978-0-7354-2476-0
... of motion of a 2 mm diameter WO3-coated liquid metal marble. Reproduced with permission from Tang et al., Appl. Phys. Lett. 103 , 174104 (2013). Copyright 2013 AIP Publishing. (g) Deformable colorful liquid metal droplets coated with fluorescent particles. (i) Schematic...
Book Chapter
Series: AIPP Books, Principles
Published: May 2022
10.1063/9780735424791_010
EISBN: 978-0-7354-2479-1
ISBN: 978-0-7354-2476-0
.... , Sivan , V. , Khoshmanesh , K. , O'Mullane , A. , Tang , X. , Gol , B. , “ Electrochemically induced actuation of liquid metal marbles ,” Nanoscale 5 ( 2013 ). 10.1039/C3NR00185G Thomas , C. E. , Kuhn , I. F. , James , B. D. , Lomax , F. D. , and Baum , G...
Book Chapter
Series: AIPP Books, Principles
Published: September 2021
10.1063/9780735421929_005
EISBN: 978-0-7354-2192-9
ISBN: 978-0-7354-2193-6
...—that is, it is associated with a physical medium for its storage. Let us consider the problem of storing the number 4. This can be done in an infinite number of ways. Two of these are by representing them by four marbles placed on a table, or by four little circles drawn on the white board. The energy cost of erasing...
Book Chapter
Series: AIPP Books, Methods
Published: September 2021
10.1063/9780735422957_002
EISBN: 978-0-7354-2295-7
ISBN: 978-0-7354-2292-6
... in the interference patterns. The usefulness of holographic interferometry may be limited if the object of interest is resistant to movement. For example, the high specific heat of marble would prevent noticeable interference patterns after exposure to a heat source ( Asmus et al., 1973 ). Holography is also...
Book Chapter
Series: AIPP Books, Principles
Published: September 2021
10.1063/9780735421929_001
EISBN: 978-0-7354-2192-9
ISBN: 978-0-7354-2193-6
... measurements will be affected, and the geometry of the space would become non-Euclidean in any arbitrary gravitational field. Measurements of lengths in the specific example of a differentially heated marble slab demonstrate that it is not possible to use Cartesian coordinates to characterize points in any...
Book
Series: AIPP Books, Principles
Published: September 2021
10.1063/9780735421929
EISBN: 978-0-7354-2192-9
ISBN: 978-0-7354-2193-6
Book
Series: AIPP Books, Methods
Published: September 2021
10.1063/9780735422957
EISBN: 978-0-7354-2295-7
ISBN: 978-0-7354-2292-6
Images
in Student laboratory handbook—Math skills
> Teaching High School PhysicsThe Nature of Physics Teaching
Published: September 2020
The results of (a) nonbiased and (b) biased marble tests. Fig. E.2 The results of (a) nonbiased and (b) biased marble tests. More about this image found in The results of (a) nonbiased and (b) biased marble tests.
Book Chapter
Series: AIPP Books, Professional
Published: September 2020
10.1063/9780735421967_introduction
EISBN: 978-0-7354-2196-7
ISBN: 978-0-7354-2194-3
.... For instance, a teacher gives a small group of students a graduated cylinder, a small marble, and several types of transparent water-soluble fluids (corn syrup, hand sanitizer, honey, glycerin, water, dish soap, etc.). The teacher then asks the students to determine the relative “thickness” (viscosity) of each...
Book Chapter
Series: AIPP Books, Professional
Published: September 2020
10.1063/9780735421967_008
EISBN: 978-0-7354-2196-7
ISBN: 978-0-7354-2194-3
..., students can predict where a marble projectile might land on the ground as it slides horizontally off of the table edge. Describing relationships (inductive reasoning). Identifying and summarizing relationships (if-then statements, laws, etc.) in quantifiable physical form, including relevant...
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