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303 results on '"Harms, U."'

1. Students' Energy Understanding across Biology, Chemistry, and Physics Contexts

Author

Opitz, S. T., Neumann, K., Bernholt, S., and Harms, U.

Abstract

Energy is considered both as a disciplinary core idea and as a concept cutting across science disciplines. Most previous approaches studied progressing energy understanding in specific disciplinary contexts, while disregarding the relation of understanding across them. Hence, this study provides a systematic analysis of cross-disciplinary energy learning. On the basis of a cross-sectional study with n = 742 students from grades 6, 8, and 10, we analyze students' progression in understanding energy across biology, chemistry, and physics contexts. The study is guided by three hypothetical scenarios that describe how the connection between energy understanding in the three disciplinary contexts changes across grade levels. These scenarios are compared using confirmatory factor analysis (CFA). The results suggest that, from grade 6 to grade 10, energy understanding in the three disciplinary contexts is highly interrelated, thus indicating a parallel progression of energy understanding in the three disciplinary contexts. In our study, students from grade 6 onwards appeared to have few problems to apply one energy understanding across the three disciplinary contexts. These findings were unexpected, as previous research concluded that students likely face difficulties in connecting energy learning across disciplinary boundaries. Potential reasons for these results and the characteristics of the observed cross-disciplinary energy understanding are discussed in the light of earlier findings and implications for future research, and the teaching of energy as a core idea and a crosscutting concept are addressed.

Published
2019
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2. The sociopolitical in human genetics education

Author

Duncan, R. G., primary, Krishnamoorthy, R., additional, Harms, U., additional, Haskel-Ittah, M., additional, Kampourakis, K., additional, Gericke, N., additional, Hammann, M., additional, Jimenez-Aleixandre, M., additional, Nehm, R. H., additional, Reiss, M. J., additional, and Yarden, A., additional

Published
2024
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3. The sociopolitical in human genetics education

Author

Duncan, R. G., Krishnamoorthy, R., Harms, U., Haskel-Ittah, M., Kampourakis, K., Gericke, Niklas, Hammann, M., Jimenez-Aleixandre, M., Nehm, R. H., Reiss, M. J., Yarden, A., Duncan, R. G., Krishnamoorthy, R., Harms, U., Haskel-Ittah, M., Kampourakis, K., Gericke, Niklas, Hammann, M., Jimenez-Aleixandre, M., Nehm, R. H., Reiss, M. J., and Yarden, A.

Published
2024
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4. Biologische Bildung für Nachhaltigkeit

Author

Harms, Ute, Gropengießer, Harald, Harms, U ( Ute ), Gropengießer, H ( Harald ), Niebert, Kai; https://orcid.org/0000-0002-7872-4688, Harms, Ute, Gropengießer, Harald, Harms, U ( Ute ), Gropengießer, H ( Harald ), and Niebert, Kai; https://orcid.org/0000-0002-7872-4688

Published
2023

14. Sedimentological, geochemical, petrophysical, and geochronological data on drill cores and samples from the 2019 Lake Constance (Germany) drilling campaign with Hipercorig

Author

Harms, U., Schaller, S., Raschke, U., Anselmetti, F., Boettcher, M., Buechi, M., Epp, L., Fabbri, S., Gribenski, N., Krastel, S., Liebezeit, A., Lindhorst, K., Schleheck, D., Schmiedinger, I., Schwalb, A., Vogel, H., Wessels, M., and Wittig, V.

Abstract

The basin sediments of Lake Constance encompass superior records of glacial to late glacial and Holocene environmental conditions but were hitherto not recovered from greater depths due to the lack of high-quality but inexpensive coring instruments. In a test and commissioning campaign in 2019, a new scientific coring device, called Hipercorig, was deployed and recovered from two parallel boreholes a 20 and a 24 m long drillcore and one two-m-long surface core (Harms et al. 2020, Schaller et al. 2022). The drill site is in 200 m deep waters close to the northwestern lake shoreline near the town of Hagnau and was selected based on new seismic surveys. They revealed an up to 150 m thick sediment fill of the overdeepened Lake Constance basin created by several advance and retreat cycles of the Rhine Glacier during the mid to late Quaternary. The deposits comprise proglacial sediments overlain by glaciolacustrine and finally lake strata. The latter make up the top 12 m of the core recovered while below sandy intercalations indicate downward increasing influence of dynamic sedimentation pulses that were deposited through subaquatic channel systems fed by declining glaciers and meltwater pulses from the north. The cores retrieved were sampled for microbiology and pore fluids at University of Constance (Germany). They were opened at Bern University (Switzerland) in fall 2019, sedimentologically described, instrumentally logged, and sampled for further studies including age dating. These data served to identify 14 lithotypes that were differentiated into three chronostratigraphic units based on a 14C- and OSL-based age model. The cores section base with the proglacial unit is about 13.7 ka BP old while the lacustrine strata cover Bølling-Alerød and Holocene ages. A prominent turbiditic event layer could be dated at 9.5 ka BP, coeval with the largest Holocene Alpine rock slide, the Flimser Bergsturz, that caused damming of the river Rhine and finally an outburst reaching as turbidite even northern Lake Constance. These initially gained data sets and the instruments utilized are described in the data description.

Published
2021

15. A Virtual Core-Log-Seismic Integration Centre in Germany

Author

Crutchley, Gareth J., Pierdominici, S., Elger, Judith, Berndt, Christian, Harms, U., Gohl, K., Crutchley, Gareth J., Pierdominici, S., Elger, Judith, Berndt, Christian, Harms, U., and Gohl, K.

Abstract

The goal of core-log-seismic integration is to glean new scientific understanding from diverse datasets that span the millimeter to kilometer scale. Germany plays an important role in international scientific drilling, with major core curation and data management centres, as well as broad expertise in seismicdata acquisition, borehole logging and sediment core investigations. Springboarding from this solid foundation, we propose to establish a virtual Core-Log-Seismic Integration Research Centre to act as a nucleus for conceiving and running research projectsthat harvest the untapped potential of hundreds of scientific boreholes. We envisage that scientists from Germany, in collaboration with key international partners, should work closely together and provide the critical mass and long-term expertise to sustain the research centre. We see this an ideal way to foster collaboration within Germany and globally.In this presentation we will describe this new initiative and provide some examples of on-going and developing research projects that are underpinned by core-log-seismic integration methods. The examples will include investigations into submarine landslide processes (offshore New Zealand), gas hydrate formation (offshore Taiwan) and continental collision (onshore Sweden).

Published
2021

19. The Innovative Exploration Drilling and Data Acquisition Research School

Author

Ask, M., primary, Almqvist, B., additional, Buske, S., additional, Juhlin, C., additional, Kalscheuer, T., additional, Rasmussen, T. Maack, additional, Harms, U., additional, Kück, J., additional, Wiersberg, T., additional, Giese, R., additional, Rosberg, J., additional, Jonsson, P., additional, Linden, C., additional, Wenning, Q., additional, Målberg, S., additional, and Sandberg, P., additional

Published
2021
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22. Data from the German Continental Deep Drilling Project (KTB, Kontinentale Tiefbohrung)

Author

Kück, J., Conze, R., and Harms, U.

Abstract

This data collection provides digital access to data and publications of the KTB (German Continental Deep Drilling Program) project. KTB was a very detailed, long-term Earth science investigation on the structure, dynamics and formation of the Central European crust in Northeastern Bavaria, Germany (Harms, Kück 2016). With geophysical sounding and ultra-deep drilling it elucidated a crustal block at the border of a micro-continental collision zones amalgamated during the Caledonian and Variscan orogenies. Major research themes were: i) the nature of geophysical structures and phenomena, ii) the crustal stress field and the brittle-ductile transition, iii) the thermal structure of the crust, iv) crustal fluids and transport processes, and v) structure and evolution of the central European Variscan basement. KTB started in 1982 with pre-site selection studies and scientific objective definition followed in 1985 by site selection studies including shallow boreholes. From 1987 to 1990 a pilot borehole of 4000 m depth was drilled and fluid tests and borehole studies were conducted. In 1990 started drilling of a so-called superdeep main borehole of 9101 m depth that was reached in 1994. Again, the final drilling phase was concluded with large-scale fluid and seismic experiments. The rocks drilled comprise metamorphic series of mafic volcanic, volcano-clastics as well as minor gabbroic to ultramafic rocks that are intercalated with leucocratic meta-sedimentary gneisses. They represent most likely a deeply subducted accretionary wedge mélange with a complex P-T-t history. The undisturbed bottom hole temperature is ~265°C.

Published
2020

28. Thermoacoustic analysis of solar cells by current modulation

Author

Harms, U., Barkow, U., Metzdorf, J., and Kessler, F.R.

Subjects
Solar cells -- Research, Physics
Abstract

An electroacoustic method for determining the spatial distribution of heat in solar cells made of silicon crystals is introduced. The method, which must be performed in conjunction with a reference signal that normalizes the acoustic signal, involves the application of ac power instead of modulated light to produce heat in a solar cell. It also facilitates the nondestructive testing of carrier lifetime and recombination velocities.

Published
1996

29. Buchbesprechungen

Author

Jensen, U., Kämpke, T., Horst, R., Harms, U., Alt, W., von Dobschütz, L., Knolmayer, G., and Bruhn-Suhr, M.

Published
1990
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30. Probing the amalgam : the relationship between science teachers’ content, pedagogical and pedagogical content knowledge

Author

Neumann, K., Kind, V., and Harms, U.

Abstract

This Special Issue aims to present evidence about the relationships between content knowledge (CK), pedagogical knowledge (PK) and pedagogical content knowledge (PCK); the development of these types of knowledge in novice and experienced secondary science teachers; and how CK, PK and/or PCK impact students’ learning. Since Shulman’s introduction of PCK as the feature that distinguishes the teacher from the content expert, researchers have attempted to understand, delineate, assess and/or develop the construct in pre- and in-service teachers. Accordingly, empirical findings are presented that permit further discussion. Outcomes permit post-hoc examination of a recent, collectively described, ‘consensus’ model of PCK, identifying strengths and potential issues. As we will illustrate, the relationship between CK, PK and PCK is central to this; that is, probing the hypothesis of pedagogical content knowledge as an ‘amalgam’ of content and pedagogical knowledge.

Published
2019

37. Elastic and anelastic properties of Fe-doped InP films on silicon cantilevers.

Author

Klose, F. B., Harms, U., Neuha¨user, H., Bakin, A., Behrens, I., Peiner, E., Wehmann, H.-H., Schlachetzki, A., and Ro¨sler, J.

Subjects
*SEMICONDUCTOR doping, *IRON, *INDIUM phosphide, *THIN films
Abstract

The effect of Fe doping on the elastic and anelastic properties of heteroepitaxial InP films on microfabricated silicon cantilevers has been investigated by the vibrating-reed technique (typical frequencies 100 Hz to 10 kHz) with strain amplitudes in the range of 10[sup -6] to 10[sup -3] and in the temperature interval from 113 to 508 K. A matter of particular interest has been the effect of iron doping on the motion and multiplication of dislocations which are known to restrict the application of the material for instance in optoelectronic devices. For this purpose, the amplitude dependence of damping as well as internal friction as a function of temperature, thermal treatment, and frequency have been investigated and are discussed in terms of the present knowledge about twins and dislocations in InP. In addition, Young's modulus as well as film stress have been measured as a function of temperature, which permits an estimate of the thermal expansion coefficient. [ABSTRACT FROM AUTHOR]

Published
2002
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39. Accumulation by Fish

Author

Harms, U., Kerkhoff, M. A. T., Salomons, Wim, editor, Bayne, Brian L., editor, Duursma, Egbert Klaas, editor, and Förstner, Ulrich, editor

Published
1988
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41. Analysis of element behavior in mylonites of the Seve Nappe of the Scandinavian Caledonides using different core scanning methods (Datasets)

Author

Hierold, J., Körting, F., Kollaske, T., Rogaß, C., and Harms, U.

Abstract

The International Continental Scientific Drilling Program (ICDP) performed a dual-phase scientific drilling project to investigate mountain-building processes called Collisional Orogeny in the Scandinavian Caledonides (COSC). The borehole COSC-1 was drilled through the Lower Seve Nappe, as the first of two 2.5 km deep drill holes close to Åre, central Sweden. The recovered rocks comprise a 1650 m thick suite of high grade gneisses and amphibolites with clear Seve Nappe affinities, while the lower 850 m comprise rather homogenous mylonitic gneisses with interfingered K-rich phyllonite bands of cm to several m size and some intercalated amphibolites. The different lithologies all crosscut the core in a subhorizontal direction with foliation of gneisses and phyllonites in the same direction. Albite and garnet porphyroblasts with pressure shadows show syn-deformational growth and the same sub-horizontal alignment. The focus of this study was to detect chemical and mineralogical differences in mylonitic and host rocks and to relate these differences to either metasomatism and deformation or inherited source rock variance. Another goal of this work is to compare chemical core scanning instruments. For this purpose two different X-Ray Fluorescence (XRF) techniques, Laser Induced Breakdown Spectroscopy (LIBS) and hyperspectral imaging served to measure seven samples from the lower 850 m of the COSC-1 core. This data publication comprises the datasets gained in the course of this study. The metadata (OF WHAT?) will be presented in an additional file including XRF data from the Avaatech XRF core scanner in a txt.file as well as datasets of the other used devices in original file formats.

Published
2016

43. Explanatory remarks on the data sets of the master thesis: 'Analysis of element behavior in mylonites of the Seve Nappe of the Scandinavian Caledonides using different core scanning methods'

Author

Hierold, J., Körting, F., Kollaske, T., Rogass, C., and Harms, U.

Abstract

The International Continental Scientific Drilling Program (ICDP) performed a dual-phase scientific drilling project to investigate mountain-building processes called Collisional Orogeny in the Scandinavian Caledonides (COSC). The borehole COSC-1 was drilled through the Lower Seve Nappe, as the first of two 2.5 km deep drill holes close to Åre, central Sweden. The recovered rocks comprise a 1650 m thick suite of high grade gneisses and amphibolites with clear Seve Nappe affinities, while the lower 850 m com-prise rather homogenous mylonitic gneisses with interfingered K-rich phyllonite bands of cm to several m size and some intercalated amphibolites. The different lithologies all crosscut the core in a subhorizontal direction with foliation of gneisses and phyllonites in the same direction. Albite and garnet porphyroblasts with pressure shadows show syn-deformational growth and the same sub-horizontal alignment. The focus was to detect chemical and mineralogical differences in mylonitic and host rocks and to relate these differences to either metasomatism and deformation or inher-ited source rock variance. Another goal of this work is to compare chemical core scanning instruments. For this purpose, two different μ-Energy-Dispersive X-Ray Fluorescence (μ-EDXRF), Laser Induced Breakdown Spectroscopy (LIBS) and hyperspectral imaging tech-niques served to measure seven samples from the lower 850 m of the COSC-1 core. This report will explain the data sets gained during this study. The metadata will be pre-sented in an additional file including XRF data from the AVAATECH XRF core scanner in a text file as well as data sets of the other used devices in original file formats.

Published
2016
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47. Scientific Drilling / Workshop to develop deep-life continental scientific drilling projects

Author

Kieft, T. L., Onstott, T. C., Ahonen, L., Aloisi, V., Colwell, F. S., Engelen, B., Fendrihan, S., Gaidos, E., Harms, U., Head, I., Kallmeyer, J., Kiel Reese, B., Lin, L.-H., Long, P. E., Moser, D. P., H., Mills, Sar, P., Schulze-Makuch, D., Stan-Lotter, H., Wagner, D., Wang, P.-L., and We, F.

Abstract

The International Continental Scientific Drilling Program (ICDP) has long espoused studies of deep subsurface life, and has targeted fundamental questions regarding subsurface life, including the following: "(1) What is the extent and diversity of deep microbial life and what are the factors limiting it? (2) What are the types of metabolism/carbon/energy sources and the rates of subsurface activity? (3) How is deep microbial life adapted to subsurface conditions? (4) How do subsurface microbial communities affect energy resources? And (5) how does the deep biosphere interact with the geosphere and atmosphere?" (Horsfield et al., 2014) Many ICDP-sponsored drilling projects have included a deep-life component; however, to date, not one project has been driven by deep-life goals, in part because geomicrobiologists have been slow to initiate deep biosphere-driven ICDP projects. Therefore, the Deep Carbon Observatory (DCO) recently partnered with the ICDP to sponsor a workshop with the specific aim of gathering potential proponents for deep-life-driven ICDP projects and ideas for candidate drilling sites. Twenty-two participants from nine countries proposed projects and sites that included compressional and extensional tectonic environments, evaporites, hydrocarbon-rich shales, flood basalts, Precambrian shield rocks, subglacial and subpermafrost environments, active volcanotectonic systems, megafan deltas, and serpentinizing ultramafic environments. The criteria and requirements for successful ICDP applications were presented. Deep-life-specific technical requirements were discussed and it was concluded that, while these procedures require adequate planning, they are entirely compatible with the sampling needs of other disciplines. As a result of this workshop, one drilling workshop proposal on the Basin and Range Physiographic Province (BRPP) has been submitted to the ICDP, and several other drilling project proponents plan to submit proposals for ICDP-sponsored drilling workshops in 2016. (VLID)1731059

Published
2015
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49. Interaction of ARC and Daxx: A Novel Endogenous Target to Preserve Motor Function and Cell Loss after Focal Brain Ischemia in Mice

Author

Donath, S., primary, An, J., additional, Lee, S. L. L., additional, Gertz, K., additional, Datwyler, A. L., additional, Harms, U., additional, Muller, S., additional, Farr, T. D., additional, Fuchtemeier, M., additional, Lattig-Tunnemann, G., additional, Lips, J., additional, Foddis, M., additional, Mosch, L., additional, Bernard, R., additional, Grittner, U., additional, Balkaya, M., additional, Kronenberg, G., additional, Dirnagl, U., additional, Endres, M., additional, and Harms, C., additional

Published
2016
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