361 research outputs found

    Joutsenet (/Ui merta ne unten /Joutsenlaulua) op. 15

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    A ORKESTERITEOKSETJoutsenet (/Ui merta ne unten /Joutsenlaulua) op. 15 (1919) 3333/4331/12/0/cel/str. (2#) Sijainti Kansalliskirjastossa: COLL. 592.2 Teoksen sijainti muissa arkistoissa: H:gin kaupunginarkisto, HKO käsikirjoituspartituurit. Puhtaaksikirjoitus H. Jäger. Myös: Yleisradion nuotisto (nimellä Joutsenien laulu) M(3326). Omakätinen puhtaaksikirjoitus, ruskea muste. FIMIC 284 Teostiedot KE 4. 2. 1920. Helsinki. HKO, joht. Robert Kajanus. VR:n toinen sävellyskonsertti. Kustanteet: Suomen Säveltaiteilijain Liitto 4 1937 (WSOY: Helsinki) Fennica Gehrman (M-042-05303-4) Levytykset: ”Intrada & Finnish Folk Songs”. FennicaSS2 (1956) (Finlandia-orkesteri) ”Aarre Merikanto – Väinö Raitio”. Fennica nova FENO2 (1972) (RSO, Okko Kamu) (YLE v 8578) ”Väinö Raitio. Orchestral works”. Ondine ODE 790-2 (1992) (RSO, Jukka-Pekka Saraste) ”Finlandia. A Festival of Finnish Music”. BIS-CD-575 (1992) (Sinfonia Lahti, Osmo Vänskä) ”Finnish Orchestral Favourites”. Ondine ODE 863-2 (1995) (RSO, Jukka-Pekka Saraste) ”Finland Transcriptions” FT 9901 (YLE 1999) (RSO, Okko Kamu) Kesto: 8’ Mottoruno: Otto Manninen: Joutsenlaulua. Kokoelmassa Säkeitä (1905).Käsikirjoitus. Orkesteripartituuri. Sivumäärä: 40 Sivunumerot: [1.] 2.–40. [lyijykynä, VR]. Paperi: PH 18 ja BH 22. Sidottu ja teippaamalla vahvistettu. Kellastunut. Käsikirjoitus: Lyijykynä, VR. Lisäyksiä, muutoksia, korjauksia [lyijykynä, ruskea ja musta muste, VR]. Harjoitusnumerot: 1–6 [yliviivattu, kumitettu tai sotkettu], 7–20 [lyijykynä, ympyröity punaisella puukynällä, VR]. Kapellimestarin lisäyksiä, merkintöjä, korjauksia [punainen ja sininen puukynä.] Mustetahroja, lyijykynäjälki nuhjaantunut. S1: Joutsenet. [musta muste, VR] Tekstin alla Ui merta ne unten.. [lyijykynä, VR] Väinö Raitio / 1919 [musta muste, VR] alla VR / op. 15 [lyijykynä, VR] C = 4/4 Andante tranquillo [lyijykynä, VR] ¼ = 56 [musta muste, VR]. Helsingin kaupunginorkesterin kirjaston leima. S40: 1919 [lyijykynä, laatikoitu, VR] A4 [lyijykynä, tk]

    ASOSIASI MAKROZOOBENTOS PADA PADANG LAMUN DI PANTAI MERTA SEGARA SANUR, BALI

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    Makrozoobentos merupakan salah satu komunitas organisme dasar perairan yang berasosiasi dengan ekosistem lamun. Penelitian ini bertujuan mengetahui asosiasi makrozoobentos dengan kepadatan padang lamun dan tipe sedimen di Pantai Merta Segara. Penelitian dilaksanakan bulan Oktober-Desember 2013 pada waktu surut terendah. engambilan sampel dilakukan dengan metode transek kuadrat yang terdiri dari 3 transek dan dibentangkan sepanjang 300 m dengan interval antar transek 50 m. Hasil penelitian diperoleh Indeks diversitas (H’) 4,7 dan Indeks keseragaman (E) 0,85, mengindikasikan bahwa kawasan tersebut tergolong stabil. Jumlah jenis ditemukan 47 jenis dalam 9 kelas, dengan spesies yang mendominansi Eurythoe sp. (Polychaeta), dan nilai indeks dominansi (C) 0,05. Presentase tutupan lamun rata-rata sebesar 51,10 %, sedangkan tipe sedimen di dominansi oleh koarsa dan pasir kasar. Sebaran makrozoobentos menunjukkan adanya asosiasi dengan kepadatan tutupan lamun dan tipe sedimen gravel

    ASOSIASI MAKROZOOBENTOS PADA PADANG LAMUN DI PANTAI MERTA SEGARA SANUR, BALI

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    Makrozoobentos merupakan salah satu komunitas organisme dasar perairan yang berasosiasi dengan ekosistem lamun. Penelitian ini bertujuan mengetahui asosiasi makrozoobentos dengan kepadatan padang lamun dan tipe sedimen di Pantai Merta Segara. Penelitian dilaksanakan bulan Oktober-Desember 2013 pada waktu surut terendah.engambilan sampel dilakukan dengan metode transek kuadrat yang terdiri dari 3 transek dan dibentangkan sepanjang 300 m dengan interval antar transek 50 m. Hasil penelitian diperoleh Indeks diversitas (H’) 4,7 dan Indeks keseragaman (E) 0,85, mengindikasikan bahwa kawasan tersebut tergolong stabil. Jumlah jenis ditemukan 47 jenis dalam 9 kelas, dengan spesies yang mendominansi Eurythoe sp. (Polychaeta), dan nilai indeks dominansi (C) 0,05. Presentase tutupan lamun rata-rata sebesar 51,10 %, sedangkan tipe sedimen di dominansi oleh koarsa dan pasir kasar. Sebaran makrozoobentos menunjukkan adanya asosiasi dengan kepadatan tutupan lamun dan tipe sedimen gravel.</jats:p

    Interactions between cationic starch and anionic surfactants

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    The interactions between cationic starch (CS) and anionic surfactants and their mixtures were studied by using surface tension, solution viscosity and dynamic light scattering (DLS) measurements. The composition and structure of the complexes of CS and surfactants were studied by using phase equilibrium determination, small-angle neutron scattering (SANS) and small-angle X-ray scattering (SAXS) measurements. Critical association concentrations (cac) are well below the critical micellisation concentrations (cmc) of the surfactants. Associative phase separation occurs in extremely dilute systems when the charge ratio between the surfactants and the polymer is close to one. The effect of mixing on micellisation of the binary surfactant solution can be described by taking into account the effects of the volume difference between the hydrocarbon chains. The separated phase is a hydrophobic, viscous, gel-like complex containing less than 60 w% of water. With mixed surfactants, the more surface-active component is enriched in the complex phase. The gel is dissolved entirely or partly when excess surfactant is added with charge reversal mechanism. The mixed micelles of alkanoates are prolate ellipsoids with the longer-chain surfactant enriched in the end-cups of the ellipsoid. In dilute solutions CS molecules have a helical conformation. The core of CS/surfactant aggregates is formed by surfactant monomers and the surrounded shell by CS-chains. The structure of the complexes in dilute solutions resembles the inclusion complexes of amylose and surfactants. The charge neutralized CS-surfactant complexes consists of lyotropic liquid crystalline phase. The mesophases are the same as the pure surfactants form without any added polymer (hexagonal, lamellar or cubic), but they form with CS at lower surfactant concentrations. The gel-like CS-surfactant complex phases have high viscosity and elasticity. Their rheological behaviour is described by the Hershel-Bulkley model.reviewe

    Analisis Faktor-faktor yang Mempengaruhi Kinerja Karyawan PT. Bio Nusantara Teknologi Jl. Lintas Utara Km. 19 Bengkulu Tengah

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    Merta Kusuma, Tm. Said:The purpose of this research is to know the influence of motivation, work environment, selection, and training toward employee's performance in PT BIO Nusantara Teknologi. Population of this research was 550 permanent employees in PT BIO Nusantara Teknologi. Sampling techniques that used in this research were Nonprobability and Insidental sampling. To determined the sample used Solvin formula, so there was 84 people as samples. Data collection techniques were observation questionnaire, and interview. Data analysis techniques used by researcher were qualitative and quantitative analysis which consists of a multiple regression model and coefficient of determination. The result of this research used regression test Y= 6.003 + 0.230 X1 + 0.134 X2 + 0.188 X3 + 0.232 X4. While the result of determination R = 0.472 and R2 = 0223. T test significant level &lt; 0,05 so, there was significant influence, if significant level &gt; 0,05 so, there was not significant influence, the result of each t sig was 0,021 for motivation variable, 0,034 for work environment variable, 0,045 for selection, and 0,049 for training variable. The four variables were &lt; 0,05 so there was significant influence. Next, F test, if F sig &lt; 0,05 and (Fanova &gt; F table) so, Ho was rejected ad H1 was accepted, the result of F sig=(0,000) &lt; 0,05 and (5,673&gt;2,337)so, the regression model can be used to predict employee's performance variable or it can be said that the motivation variable (X1), work environment(X2), selection(X3), and training(X4) were influenced employee's performance(Y) together in PT BIO Nusantara Teknologi

    DISTRIBUSI HORIZONTAL MOLUSKA DI KAWASAN PADANG LAMUN PANTAI MERTA SEGARA SANUR, DENPASAR

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    A research on spatial distribution of Mollusc inhabitant seagrass bed at Merta Segara Beach Sanur, Denpasar was carried out from October to December 2012. The study site is well recognized as a place of tourist activities. Line transects with quadrate methods were applied as the sampling technique. Samples were collected in a total of 60 quadrates (10 m x 2.5 m) from four line transects with the interval of 50 m between each transect. At a sampling point chosen randomly, one transect was lined up toward the sea, then on each side of transect, 15 quadrates were laid with the interval of 20 m. The study found 31 individuals which 24 were classified as Gastropods, and 7 individuals classified as Bivalve. Overall, the study indicated that the Mollusc communities were in stable condition (H’= 3,74 and E= 0,75). The horizontal distribution of Mollusc was neither associated with seagrass percentage cover or the use of jetty piling. The spatial distribution seemed related to the use of area as tourist activities

    Uji Kelayakan Instrumen Penilaian Kemampuan Pemecahan Masalah Menggunakan Multimodus Representasi Berbasis Kearifan Lokal Papua

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    R. Widyastuti, B. Usodo, and Riyadi, “Proses Berpikir Siswa Smp Dalam Menyelesaikan Masalah Matematika Berdasarkan Langkah- Langkah Polya,” Univ. Sebel. Maret Surakarta, vol. 1, no. 3, pp. 239–249, 2017.A. Saregar, S. Latifah, and M. Sari, “Efektivitas Model Pembelajaran CUPs: Dampak Terhadap Kemampuan Berpikir Tingkat Tinggi Peserta Didik Madrasah Aliyah Mathla’ul Anwar Gisting Lampung,” J. Ilm. Pendidik. Fis. Al-Biruni, vol. 5, no. 2, pp. 233–244, 2016, doi: 10.24042/jpifalbiruni.v5i2.123.E. P. Widoyoko, Evaluasi program pembelajaran. Yogyakarta: Pustaka Pelajar, 2009.Z. Arifin, Evaluasi Pembelajaran. Jakarta: Rosda Karya, 2012.Purwanto, Evaluasi Hasil Belajar. Yogyakarta: Pustaka Belajar, 2013.D. R. and N. F. Kohl, P.B., “Strongly and weakly directed approaches to teaching multiple representation use in physics,” Phys. Rev. Spec. Top. Educ. Res., vol. 3, 2007.M. Simbolon, P. Sinaga, and S. Utari, “Effect of Application of Physics Learning material Using Multimode representation to Improve Problem Solving Ability,” vol. 57, no. ICMSEd 2016, pp. 150–153, 2017, doi: 10.2991/icmsed-16.2017.33.E. Angell, C. O, Guttersrud, dan Henriksen, Multiple representations as a framework for a modelling approach to physics education. UK: Department of Physics, University of Oslo, NORWAY, and Per Morten Kind, School of Education, 2007.M. Simbolon, D. K. Sari, and A. Reski, “The development of physics learning materials using multimodal representation to improve the problem-solving skill of high school students based on rosengrant stages,” IOP Conf. Ser. Earth Environ. Sci., vol. 343, no. 1, pp. 65–69, 2019, doi: 10.1088/1755-1315/343/1/012234.Merta Simbolon, “The Development of Physics Learning Materials Using Multimode Representation to Improve Cognitive Ability of High School Students,” J. Basic Appl. Sci. Res., vol. 9, no. 6, pp. 65–69, 2019.Supriyadi, Palittin I. D., and Cristiana Martini, “Kajian Etnosains pada Indigenous Science Suku Malind dalam Upaya Pengembangan Pembelajaran IPA Kontekstual Papua,” J. Pendidik. Fis. Tadulako Online, vol. 8, no. 1, 2020.S. Hadi, “Sindrom Sampah,” Kompas, Jakarta, 2018.Azwar, Reliabilitas Dan Validitas. Yogyakarta: Pustaka Pelajar, 2015.D. Budiastuti and A. Bandur, Validitas dan Reliabilitas Penelitian: Dilengkapi Analisis dengan NVIVO, SPSS, dan AMOS. Jakarta: Mitra Wacana Media, 2018.Sugiyono, Metode Penelitian Pendidikan (pendekatan kuantitatif, kualitatif, dan RD). Bandung: Alfabeta, 2016.Sukmadinata, Metode Penelitian Pendidikan. Bandung: PT. Remaja Rosdakarya., 2016.P. Miller, Measurement and Teachin. United States of America: Library of Congress Control, 2008.Zaenal Arifin, Evaluasi Pembelajaran. Jakarta: Rosda Karya, 2012.L. U. Fatimah, “ANALISIS KESUKARAN SOAL, DAYA PEMBEDA DAN FUNGSI DISTRAKTOR,” J. Komun. dan Pendidik. Islam, vol. 8, no. 2, pp. 37–64, 2019.S. R. Hidayat et al., “Pengembangan Instrumen Tes Keterampilan Pemecahan Masalah pada Materi Getaran, Gelombang, dan Bunyi,” J. Penelit. Pengemb. Pendidik. Fis., vol. 3, no. 2, pp. 157–166, 2017, doi: 10.21009/1.03206

    Comparative Life Cycle Assessment of Rammed Earth Stabilized with Different Biopolymers

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    Rammed Earth (RE) is a traditional technique based on the compaction of local soil, avoiding long-distance transportation and carbon emissions processes typical of concrete production. Nevertheless, RE presents limited mechanical performances and low resistance against water. Cement is usually added to improve RE properties to comply with the construction standards. Consequently, the environmental impacts increase and the recyclability of the soil at the end of life is lost. In the present study, some biopolymers were considered for RE stabilization: lignin sulfonate, tannins, and sheep wool fibers. These additives were found to be effective to improve the unconfined compressive strength of the RE in a previous study by Losini et al. [1]. In this study, the analysis focuses on the environmental impacts of the production phase of a stabilized rammed earth (RE) wall via Life Cycle Assessment (LCA). Through a comparative LCA from cradle to gate, the environmental impacts generated by the construction phase of the RE wall stabilized with three natural additives, is performed on a functional unit equal to 1m2 wall with a thickness of 30 cm. The unstabilized RE is then compared with the stabilized materials, both in terms of improvements of compressive strength and LCA environmental indicators. As a result, lignin and sheep wool fibers stabilized walls show almost negligible differences in terms of environmental impact while improving the mechanical properties up to +38% and +6% respectively. Despite the relatively high enhancement of the mechanical strength by +13%, the tannins stabilizer performs around +95% rise in all environmental indicators compared to the unstabilized material
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