2,662 research outputs found

    Distance education in music school

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    Na nižji stopnji glasbene šole učenci razvijajo svoje glasbene sposobnosti, spretnosti in znanja s pomočjo glasbenih izkušenj, učitelj pa je tisti, ki učenca vodi do pridobivanja le-teh. V okviru poučevanja na daljavo so se učitelji spoprijeli s spremembo prakse, ki so je bili do tedaj vajeni. Najbolj drastično se je spremenilo učno okolje, kar je prineslo veliko novih možnosti in izzivov. Medtem ko se klasični pouk v učilnici izvaja sinhrono oziroma sočasno, pouk na daljavo ponuja tudi druge možnosti, kot je na primer asinhrona (časovno neodvisna) izvedba učnega procesa. Ker ključni element pri izobraževanju na daljavo predstavlja kompetentnost pri uporabi informacijsko-komunikacijske tehnologije (IKT) in njenih orodij ter pripomočkov, nas je v empiričnem delu magistrske naloge zanimalo, ali se zaradi tega dejavnika med učitelji kažejo razlike v izvedbi učnega procesa na daljavo. Ugotovili smo, da se didaktična praksa učiteljev pri obravnavanem vzorcu v večjem deležu ne razlikuje glede na ta dejavnik.In music school, students develop their musical abilities, skills and knowledge through musical experience and teachers are the ones guiding the students towards gaining that experience. With the introduction of distance teaching, teachers faced a change in the practice they had previously been used to. The learning environment has changed drastically, which has brought numerous new possibilities and challenges. While classic classroom lessons are conducted synchronously (time-dependent), distance learning offers other options as well, such as asynchronous (time-independent) implementation of the learning process. Since a key element in distance education is competence in the use of information and communication technology (ICT) with its tools, we examined in the empirical part of this master’s thesis whether this factor leads to differences between teachers in the implementation of distance education. We have concluded that there are no considerable differences between teachers’ didactic approaches regarding this factor

    Lithobius easoni Matic 1969

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    Lithobius easoni Matic, 1969 * Lithobius easoni Matic, 1969: 88 Literature records. Matic (1969): 1♂ (holotype), 1♀ (paratype), Damavand Mountain, 3000-4350 m, (Tehran Prov- ince). Distribution: Iran.Published as part of Zarei, Roghaieh, Rahimian, Hassan, Mirmonsef, Hassan & Bonato, Lucio, 2020, Geophilomorpha from Alborz Mountains and a checklist of Chilopoda from Iran, pp. 132-146 in Zootaxa 4780 (1) on page 138, DOI: 10.11646/zootaxa.4780.1.6, http://zenodo.org/record/383963

    Lithobius antipai Matic 1969

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    Lithobius antipai Matic, 1969 Lithobius antipai Matic, 1969: 94 Literature records. Matic (1969): 5♀, Damavand and Gajereh, 2600-4400 m (Tehran and Alborz Provinces). Distribution: Iran, Azerbaijan.Published as part of Zarei, Roghaieh, Rahimian, Hassan, Mirmonsef, Hassan & Bonato, Lucio, 2020, Geophilomorpha from Alborz Mountains and a checklist of Chilopoda from Iran, pp. 132-146 in Zootaxa 4780 (1) on page 138, DOI: 10.11646/zootaxa.4780.1.6, http://zenodo.org/record/383963

    Diversity of Plum Pox Virus isolates in Bosnia and Herzegovina

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    Sixteen Plum pox virus (PPV) isolates from several stone fruit cultivars, host species, orchards and geographical areas ofBosnia and Herzegovina were selected for typing, using serotype-specific monoclonal antibodies (MAbs) and PCR–RFLP,targeting the 3′ terminal region of the coat protein (CP) and P3-6K1 with restriction enzymes RsaI and DdeI. Four PPVisolates were identified as PPV-M by serology and PCR; eight isolates were identified as PPV-D based on PCR–RFLP onboth genomic regions, but were not recognized by the D-specific MAb4DG5. Four isolates from plum were identified asnatural D/M recombinants (PPV-Rec), based on conflicting results of CP and P3-6K1 typing. To investigate the geneticdiversity of Bosnian PPV isolates in more detail, five isolates (three PPV-Rec, one PPV-M and one PPV-D) were partiallysequenced in the region spanning the 3′ terminal part of the NIb gene and the 5′-terminal part of the CP gene, corre-sponding to nucleotides 8056–8884. Nucleotide sequence alignment of recombinant isolates showed that they wereclosely related at the molecular level to previously characterized recombinants from other European countries, andshared the same recombination break point in the 3′ terminal part of the NIb gene. This is the first report of naturallyinfected Prunus trees with PPV-M, PPV-D and PPV-Rec in Bosnia and Herzegovina. The high variability of the BosnianPPV isolates fits with the presence of this virus in the country over a long perio

    Lithobius demavendicus Matic 1969

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    Lithobius demavendicus Matic, 1969 * Lithobius demavendicus Matic, 1969: 98 Literature records. Matic (1969): 1♂ (holotype), Damavand Mountain, 3000-3200 m (Tehran Province). Distribution: Iran.Published as part of Zarei, Roghaieh, Rahimian, Hassan, Mirmonsef, Hassan & Bonato, Lucio, 2020, Geophilomorpha from Alborz Mountains and a checklist of Chilopoda from Iran, pp. 132-146 in Zootaxa 4780 (1) on page 138, DOI: 10.11646/zootaxa.4780.1.6, http://zenodo.org/record/383963

    Designing Highly Conductive Functional Groups Improving Guest-Host Interactions in Li/S Batteries

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    Li-sulfur batteries are of great interest due to their potential to surpass the energy densities of other battery types, but the low electronic conductivity of both sulfur and its discharge products requires the use of a conductive host material. The most common is the use of different porous carbons which normally are hydrophobic and hardly retain the polar discharge products of the Li/S reaction, such as Li2S and lithium polysulfides (LiPs), at the working electrode. Functionalized hosts have been proposed as a strategy to improve LiPs interactions, including the use of heteroatom doping, organic frameworks, metals, metal oxides, sulfide particles, and conductive polymers. Despite demonstrating an improved cycle life, the functionalized structures often have an intrinsic limitation related to a low electronic conductivity resulting in slow kinetics and poor rate capability of Li/S cells. Herein, recent research trends aimed at designing sulfur electrodes with highly conductive functional groups on nanostructured hosts surface are reviewed. The main concepts, key developments, and parameters for building 3D hosts architectures that enable fast charge rates and long cycle life at high sulfur loadings are discussed

    Lithobius chalusensis Matic 1969

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    Lithobius chalusensis Matic, 1969 * Lithobius chalusensis Matic, 1969: 105 Literature records. Matic (1969): 1♀ (holotype), Chalus, 300 m (Mazandaran Province). Mehrafrooz Mayvan & Shayanmehr (2015): 33 ex., Semeskandeh forest, Sary (Mazandaran Province). Distribution: Iran. Notes. The identity of the specimens reported by Mehrafrooz Mayvan & Shayanmehr (2015) cannot be evaluated, as no morphological diagnostic characters were indicated.Published as part of Zarei, Roghaieh, Rahimian, Hassan, Mirmonsef, Hassan & Bonato, Lucio, 2020, Geophilomorpha from Alborz Mountains and a checklist of Chilopoda from Iran, pp. 132-146 in Zootaxa 4780 (1) on page 138, DOI: 10.11646/zootaxa.4780.1.6, http://zenodo.org/record/383963

    Lithobius (Monotarsobius) nudus Matic 1976

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    20. Lithobius (Monotarsobius) nudus (Matic, 1976) (1) Monotarsobius nudus Matic, 1976: 293, Fig. 4. (2) Lithobius (Monotarsobius) nudus (Matic, 1976): Zapparoli, 2002: 51, Fig. 21. General distribution. Europe: Greece (Zapparoli 2002; Minelli et al. 2006). Chorotype. Greek endemic (END). Records in Peloponnisos (Fig. 7). Ahaia: Erimanthos, Olonos, 2200 m (2); Klitoria, Zarouhla (2); Patra, near University (loc. typ.) (1, 2). Argolida: Oros Artemissio, above Karia, 1100–1400 m (2). Lakonia: Areopoli-Vahos, 50–100 m (2). Ecological notes. 50–2200 m; a species recorded in Abies cephalonica woods (Zapparoli 2002).Published as part of Simaiakis, Stylianos Michail, Akkari, Nesrine & Zapparoli, Marzio, 2016, The centipedes of Peloponnisos and first records of genus Eurygeophilus in the East Mediterranean (Myriapoda: Chilopoda), pp. 301-346 in Zootaxa 4061 (4) on page 320, DOI: 10.11646/zootaxa.4061.4.1, http://zenodo.org/record/26420

    Eupolybothrus sketi Matic, 1979, n. sp.

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    18. Eupolybothrus sketi n. sp. Materiaux: 1♂; 1 ♀, Ceplez, 1800 m d’altitude, mont Jakupica (Macedoine). Derivatio nominis: Nous dedions cette espece a Monsieur le Professeur Dr. Boris Sket de l’Institut de Biologie de Ljubljana, lequel a mis a notre disposition pour etude les materiaux ayant servi a cette etude. Description: Longueur du corps 25-33 mm (♂ = 25 mm; ♀ = 33 mm). Corps a cotes sous-paralleles. Coloration brun-fauve. Tergites lisses; sternites avec des ponctuations rares. Tete a peu pres aussi longue que large. Le sillon frontal et ocellaire bien marque. Les antennes sont longues, composes de 39-41 articles ♂ = 39-40; ♀ = 41). Le dernier article antennaire est plus long que le penultieme. Ocelles nombre de 10- 15 ♂ = 1+9); ♀ = 1+13) disposes en trois ranges un peu arquees; l’ocelle posterieur et quelques-uns de la range superieure sont gros. L’organe de Tömösvary est plus grand qu’un ocelle. Synocoxosternum frocipilaire court; le bord rostral est tres large, rectiligne, a echancrure mediane petite, arme de 6 + 7 a 7+8 dents. Des prolongements grands aux tergites 9, 11 et 13. Le bord caudal des grands tergites est un peu echancre; tous les angles sont Presque aigus. Les P. 14 et P. 15 sont longues, relativent greles. Griffe apicale de P. 15 simple (fig. 1 B); celle de P. 14 double (fig 1 C). Chez la male dorsal sur le prefemur et femur de P. 15, il y a une rainure longitudinale peu large et peu profonde (fig. 1 A). Fig.1. Eupolybothrus sketi n. sp. A = Prefemur et femur de p. 15; B = Griffe apicale de p. 14; C = Griffe apicale de p. 14 (chez le male) Des epines coxolaterales sur les dernieres pattes. Spinulation des pattes dnas le tableau no. 1. Tableau no. 1 Spinulation des pattes chez Eupolybothrus sketi n. sp. Pores coxaux de dimensions variables, subseries disposes en ranges irregulieres. Appendices genitaux femelles avec 2 + 2 eperons cylindro-coniques courts et une griffe simple trapue (fig. 2 C). Chez le male, les gonopodes sont courtes, biarticulees (fig. 2 A, B). Discussion: L’espece E. sketi n. sp. Se rattache aux especes suivantes: E. macedonicus Verh., E. leostygis Verh., E. transsylvanicus (Latz.). Spinulation des p. 14 et p.15, le nombre des ocelles et le nombre des articles antennaires font distinguer la nouvelle espece de celles-ci. Fig. 2. Eupolybothrus sketi n. sp. A = Gonopodes (ventral); B = Gonopodes (lateral); C = Appendice genital femelle (lateral)Published as part of Matic, Z., 1979, Nouveautes sur la faune des Chilopodes de Yougoslavie, pp. 147-155 in Biol. vestn. (Ljubljana) 27 (2) on pages 150-15
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