98 research outputs found
WHEN WRITING THE ASSESSMENT BECOMES THE ASSESSMENT
Some of the most sophisticated demonstrations of deep student understanding are the creation and evaluation of information, tasks that require developed cognitive and metacognitive skills (Herscovitz, Kaberman, Saar & Dori, 2012; Kay, Hardy & Galloway, 2020).
In an approach to construct a deeper, more authentic assessment and challenge students to consider the wider context of theory, we designed an iterative assessment process in a first-year undergraduate chemistry course. Students authored practice questions and marking guides and provided and used peer feedback to improve these questions. An online, collaborative question-writing application, StudentQuiz, was used to facilitate the implementation of these activities in a HyFlex course.
Working within a constructivist framework, students’ draft and final questions, as well as guided reflections on the assessment process, were collected and thematically analysed using grounded theory to investigate:
1) The level of sophistication to which students were able to formulate and critique chemical questions.
2) How students think about their learning during the question-writing process.
3) How students format feedback on other students’ questions and how this impacts their reflections on their own attempts.
Emerging themes from this analysis will be presented with a focus on significant features of the artefacts produced and students’ metacognitive experience of formulating questions.
REFERENCES
Herscovitz, O., Kaberman, Z., Saar, L. & Dori, Y. J. (2012). The relationship between metacognition and the ability to pose questions in chemical education. In Zohar, A. & Dori, Y. J. (Eds.), Metacognition in Science Education: Trends in Current Research (pp. 165-195). Dordrecht: Springer Netherlands.
Kay, A. E., Hardy, J., & Galloway, R. K. (2020). Student use of PeerWise: A multi-institutional, multidisciplinary evaluation. British Journal of Educational Technology, 51(1), 23-35
Off-lining to tape is not archiving: Why we need real archiving to support media archaeology and ensure our visual effects legacy thrives
© 2019 ISAST This paper examines digital asset archiving and preservation practice in the visual effects (VFX) industry. The authors briefly summarize media archaeology theory and provide an overview of how VFX studios presently archive project assets and records, based on case study and interview research conducted with expert VFX practitioners from leading international studios. In addition, the authors propose that current practice could be improved by adopting archival science methods, including digital preservation practices. Doing so will support media archaeology studies of digital cultures over time and ensure that the legacy of VFX creative and technical production thrives for future generations
A population study of gaseous exoplanets
We present here the analysis of 30 gaseous extrasolar planets, with
temperatures between 600 and 2400 K and radii between 0.35 and 1.9
. The quality of the HST/WFC3 spatially scanned data combined
with our specialized analysis tools allow us to study the largest and most
self-consistent sample of exoplanetary transmission spectra to date and examine
the collective behavior of warm and hot gaseous planets rather than isolated
case-studies. We define a new metric, the Atmospheric Detectability Index (ADI)
to evaluate the statistical significance of an atmospheric detection and find
statistically significant atmospheres around 16 planets out of the 30 analysed.
For most of the Jupiters in our sample, we find the detectability of their
atmospheres to be dependent on the planetary radius but not on the planetary
mass. This indicates that planetary gravity plays a secondary role in the state
of gaseous planetary atmospheres. We detect the presence of water vapour in all
of the statistically detectable atmospheres, and we cannot rule out its
presence in the atmospheres of the others. In addition, TiO and/or VO
signatures are detected with 4 confidence in WASP-76 b, and they are
most likely present in WASP-121 b. We find no correlation between expected
signal-to-noise and atmospheric detectability for most targets. This has
important implications for future large-scale surveys.Comment: 14 pages, 12 figures, 3 tables, published in A
Quantum entanglement between electronic and vibrational degrees of freedom in molecules
We consider the quantum entanglement of the electronic and vibrational
degrees of freedom in molecules with a tendency towards double welled
potentials using model coupled harmonic diabatic potential-energy surfaces. The
von Neumann entropy of the reduced density matrix is used to quantify the
electron-vibration entanglement for the lowest two vibronic wavefunctions in
such a bipartite system. Significant entanglement is found only in the region
in which the ground vibronic state contains a density profile that is bimodal
(i.e., contains two separate local minima). However, in this region two
distinct types of entanglement are found: (1) entanglement that arises purely
from the degeneracy of energy levels in the two potential wells and which is
destroyed by slight asymmetry, and (2) entanglement that involves strongly
interacting states in each well that is relatively insensitive to asymmetry.
These two distinct regions are termed fragile degeneracy-induced entanglement
and persistent entanglement, respectively. Six classic molecular systems
describable by two diabatic states are considered: ammonia, benzene,
semibullvalene, pyridine excited triplet states, the Creutz-Taube ion, and the
radical cation of the "special pair" of chlorophylls involved in
photosynthesis. These chemically diverse systems are all treated using the same
general formalism and the nature of the entanglement that they embody is
elucidated
MARVEL Analysis of the Measured High-resolution Rovibronic Spectra of 48 Ti 16 O
Accurate, experimental rovibronic energy levels, with associated labels and uncertainties, are reported for 11 low-lying electronic states of the diatomic molecule, determined using the Marvel (Measured Active Rotational-Vibrational Energy Levels) algorithm. All levels are based on lines corresponding to critically reviewed and validated high-resolution experimental spectra taken from 24 literature sources. The transition data are in the 2–22,160 cm−1 region. Out of the 49,679 measured transitions, 43,885 are triplet–triplet, 5710 are singlet–singlet, and 84 are triplet–singlet transitions. A careful analysis of the resulting experimental spectroscopic network (SN) allows 48,590 transitions to be validated. The transitions determine 93 vibrational band origins of , including 71 triplet and 22 singlet ones. There are 276 (73) triplet–triplet (singlet–singlet) band-heads derived from Marvel experimental energies, 123(38) of which have never been assigned in low- or high-resolution experiments. The highest J value, where J stands for the total angular momentum, for which an energy level is validated is 163. The number of experimentally derived triplet and singlet rovibrational energy levels is 8682 and 1882, respectively. The lists of validated lines and levels for are deposited in the supporting information to this paper
Bringing pupils into the ORBYTS of research
publishersversionPeer reviewe
A Revised Forensic Process for Aligning the Investigation Process with the Design of Forensic-Enabled Cloud Services
© Springer Nature Switzerland AG 2020. The design and implementation of cloud services, without taking under consideration the forensic requirements and the investigation process, makes the acquisition and examination of data, complex and demanding. The evidence gathered from the cloud may not become acceptable and admissible in the court. A literature gap in supporting software engineers so as to elicit and model forensic-related requirements exists. In order to fill the gap, software engineers should develop cloud services in a forensically sound manner. In this paper, a brief description of the cloud forensic-enabled framework is presented (adding some new elements) so as to understand the role of the design of forensic-enabled cloud services in a cloud forensic investigation. A validation of the forensic requirements is also produced by aligning the stages of cloud forensic investigation process with the framework’s forensic requirements. In this way, on one hand, a strong relationship is built between these two elements and emphasis is given to the role of the forensic requirements and their necessity in supporting the investigation process. On the other hand, the alignment assists towards the identification of the degree of the forensic readiness of a cloud service against a forensic investigation
MARVEL Analysis of the Measured High-resolution Rovibronic Spectra of (ZrO)-Zr-90-O-16
Zirconium oxide (ZrO) is an important astrophysical molecule that defines the S-star classification class for cool
giant stars. Accurate, empirical rovibronic energy levels, with associated labels and uncertainties, are reported for
nine low-lying electronic states of the diatomic 90 16 Zr O molecule. These 8088 empirical energy levels are
determined using the Measured Active Rotational-Vibrational Energy Levels algorithm with 23,317 input assigned
transition frequencies, 22,549 of which were validated during this study. A temperature-dependent partition
function is presented alongside updated spectroscopic constants for the nine low-lying electronic states
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