Academic literature on the topic 'Ashika Bali'

Kinerja keuangan merupakan salah satu penentu keberhasilan suatu usaha, setiap usaha menginginkan kinerja keuangan yang optimal, begitupun Usaha Mikro Kecil dan Menengah (UMKM). Namun, mereka mengalami beberapa kendala yang menimbulkan risiko dan dapat menyebabkan penurunan kinerja keuangannya. Penelitian ini dilakukan untuk menemukan solusi menurunnya kinerja keuangan pada UD Asoka Paint. Tujuan dilakukannya penelitian ini yaitu untuk memperoleh hasil uji empiris mengenai risiko-risiko yang dapat menurunkan kinerja keuangan UMKM. Metode pendekatan kualitatif dan teknik pengumpulan data berupa wawancara dilakukan untuk mendapatkan data primer serta analisis dokumen keuangan sebagai pelengkap data sekunder. Adapun hasil dari observasi ini menunjukkan bahwa UD Asoka Paint memiliki beberapa risiko yang dapat menimbulkan penurunan kinerja keuangannya. Pemilik belum melakukan pencatatan keuangan secara menyeluruh sesuai dengan standar akuntansi yang berlaku umum bagi UMKM. Pengatahuan akuntansi dan pajak bagi pengelola UD Ashoka merupakan solusi terbaik. Kedepan penelitian ini perlu dilengkapi dengan kegiatan pengabdian masyarakat yang bermanfaat bagi UD Ashoka, berupa pelatihan keuangan, kemudian melakukan analisa hasil setelah pelatihan tersebut.

Heavy metal pollution can disturb aquatic ecosystems and indicator of water quality. This study aims to determine the concentration of heavy metals (Pb, Cu, Cd, Zn) in water and sediments. This study was conducted in the waters of Serangan, South Denpasar District, Bali in June-August 2019. The research with each location taking 8 points of water and sediment sampling and measuring the quality of its waters. Water samples taken at the surface of the water as much as 330 ml and sediment samples taken as much as 500 grams. The method used is wet ashing preparation and analyzed by means of AAS (Atomic Absorbsion Spektrophotometri). The results of the average analysis of heavy metal concentrations in water are Pb 0 mg / L, Cd 0.438 mg / L, Cu 0 mg./L, and Zn 0.284 mg / L. The results of the analysis are compared with the standard quality value of sea water that the heavy metals Cd and Zn have exceeded the threshold. While the average concentration of heavy metals in sediments are Pb 17.444 mg / kg, Cd 18.093 mg / kg, Cu 113.981 mg / kg, and Zn 53.505 mg / kg. The concentration of Cd and Cu heavy metals exceeds the limits set by the ANZECC / ARMCANZ quality guidelines and the Canadian Council of Ministers of the Environment.

Kewirausahaan adalah kewirausahaan yang ditujukan untuk kepentingan masyarakat bukan sekadar memaksimalkan keuntungan pribadi. Kewirausahaan sosial biasa disebut 'pengembangan masyarakat' atau “organisasi bertujuan sosial' (Tan, 2005:1). Menurut J. Gregory Dees, Professor of Sosial Entrepreneurship at Duke University yang mengatakan bahwa wirausaha sosial adalah pelaku reformasi atau revolusi sektor sosial (pendidikan, kesehatan, pengembangan ekonomi, lingkungan, seni dan sebagainya). Menurut Bill Drayton, CEO and Chair of Ashoka, wirausaha sosial adalah individu yang memiliki solusi inovatif untuk mengatasi masalah sosial dengan cara mengubah sistem, memberikan solusi dan memengaruhi masyarakat untuk melakukan perubahan. Perkembangan dunia usaha saat ini membutuhkan sumber daya manusia yang mandiri, kreatif dan inovatif untuk menghadapi persaingan. Misi penciptaan nilai-nilai inovatif ini dengan melakukan pemberdayaan masyarakat melalui penelitian/kajian dan pengabdian/penyuluhan bagi terciptanya social entrepreneur yang kreatif. Perguruan Tinggi harus peka dan peduli pada persoalan yang dihadapi masyarakat dengan melakukan kegiatan nyata. Proses ini sebagai cara untuk menjalin ikatan emosional sehingga para lulusan sarjana nantinya mempunyai arti dan nilai untuk membentuk lulusan yang memiliki social entrepreneurship yang tinggi Perlu diciptakan lingkungan di Universitas yang kondusif dan nyata untuk membekali lulusannya.

This research was conducted to determine the content of heavy metals lead (Pb) and Cadmium (Cd) in green shells circulating in the kreneng market. Samples of green shells were taken from the kreneng market, Bali. Then analysis of the content of lead (Pb) and Cadmium (Cd) in the Analytical Laboratory of Udayana University. Samples of green mussels (Perna viridis L.) Were opened from the shell to take the meat. Furthermore, the sample is mashed by chopping and pounding and put into erlenmeyer. Each sample was given 3 repetitions using the factorial pattern RAL. Then with a wet ashing process (wet destruction). The results showed that the heavy metal content of lead and cadmium in green mussels (Perna viridis L.) Exceeded the maximum limit of heavy metal contamination. The heavy metal content of lead (Pb) shellfish taken at the Kreneng Market is 29.595 mg / kg while the heavy metal content of cadmium (Cd) taken at the Kreneng market is 3.41 mg / kg the result of the heavy metal content analyzed exceeds the predetermined by the Food and Drug Supervisory Agency (BPOM).

Abstrak: Musaenda dan Asoka merupakan salah satu tanaman hostplant dan sekaligus foodplant bagi kupu-kupu di Gunung Sibela. Hostplant adalah tumbuhan inang yang menjadi makanan larva dan foodplant adalah tumbuhan yang menjadi makanan kupu-kupu dewasa. Penelitian ini bertujuan untuk mengetahui jenis kupu-kupu yang mengunjungi tanaman mussaenda dan asoka di kawasan cagar alam gunung Sibela pulau Bacan. Metode yang digunakan dalam penelitian ini adalah direct sampling. Hasil penelitian menunjukkan bahwa lokasi dataran rendah (20 mdpl) ditemukan 10 spesies kupu-kupu pengunjung tanaman mussaenda dan asoka, 5 genus, 2 famili. Kupu-kupu pengunjung tanaman mussaenda di dataran rendah yaitu: Ornithopthera croesus, Papilio ulysses, Papilio deiphobus, Papilio lorquinianus gelia, Troides hypolitus, Troides criton, Graphium milon, Graphium codrus dan Hebomoia glaucippe sulphure. Kupu-kupu pengunjung tanaman asoka di dataran rendah yaitu: Ornithopthera croesus, Papilio ulysses, Papilio fuscus lapathus dan Troides hypolitus. Pada lokasi dataran tinggi (400 mdpl) ditemukan 9 spesies kupu-kupu pengunjung tanaman mussaenda dan asoka, 5 genus, 2 famili. Kupu-kupu pengunjung tanaman mussaenda di dataran tinggi yaitu: Ornithopthera croesus, Papilio ulysses, Papilio deiphobus, Papilio lorquinianus gelia, Troides hypolitus, Troides criton, Graphium milon, dan Hebomoia glaucippe sulphurea, sedangkan kupu-kupu pengunjung tanaman asoka di dataran tinggi yaitu: Papilio ulysses, Papilio fuscus lapathus dan Troides hypolitus.Kata Kunci: mussaenda, asoka, kupu-kupu, pulau BacanAbstract : Musaenda and Asoka are one of the hostplant plants and also a foodplant for butterflies on Mount Sibela. Hostplants are host plants that feed on larvae and foodplants are plants that feed on adult butterflies. This study aims to determine the types of butterflies that visit mussaenda and asoka plants in the Sibela mountain nature reserve Bacan Island. The method used in this study is direct sampling. The results showed that in lowland locations (20 masl) 10 species of butterfly were found to be visitors to mussaenda and asoka plants, 5 genera, 2 families. Butterflies visitors to mussaenda plants in the lowlands are: Ornithopthera croesus, Papilio ulysses, Papilio deiphobus, Papilio lorquinianus gelia, Troides hypolitus, Troides criton, Graphium milon, Graphium codrus and Hebomoia glaucippe sulphure. Butterflies visitors to Ashoka plants in the lowlands are: Ornithoptera croesus, Papilio ulysses, Papilio fuscus lapathus and Troides hypolitus. At high altitude locations (400 meters above sea level), 9 species of butterflies were visited by visitors to the mussaenda and asoka plants, 5 genera, 2 families. Butterflies visiting mussaenda plants in the highlands are: Ornithopthera croesus, Papilio ulysses, Papilio deiphobus, Papilio lorquinianus gelia, Troides hypolitus, Troides criton, Graphium milon, and Hebomoia glaucippe sulphurea, while butterflies visiting asoka plants on the plateau are: Papilio ulysses, Papilio fuscus lapathus and Troides hypolitus.Keywords: mussaenda, asoka, butterfly, Bacan island

Knowledge of traditional medicinal plants among teenagers are quite low, that caused by the information is very limited as well as the difficulty of obtaining real-life examples of traditional medicinal plants. Those inspired us to cooperate with SMAN 1 Pondidaha District Konawe (Sulawesi Tenggara) in an effort to provide solutions to these problems. SMAN 1 Pondidaha has vacant land large enough. Through IbM program (Ipteks bagi Masyarakat, science and technology for the People) Ministry or Research and Technology and Higher Education, we made thematic landscape in SMAN 1 Pondidaha locations using traditional medicinal plants as fillers garden or park. The method was conducted on the survey and measurement, search species of plants data that suitable with the design, preparation of location and soil for planting of medicinal plants, labeling and maintenance. The results showed there are 6 types of medicinal plants are required for the design, namely 1) medicinal plants such as jarak (Jatropha curcas), jarak merah (J. gossypifolia), jarak tintir (J. multifida) and bougainvillea (Bougenvillea spectabilis), 2) medicinal plants and aesthetics, for example kembang sepatu (Hisbiscus rosasinensis), kembang nusa endah (Mussaenda philippia), tapak dara (Catharanthus roseus), 3) Barrier crops include gandaruso (Justisia gandarusso), Ashoka (Saraca asoca), teh-tehan (Duranti erecta), kroton (Codiacum variegatum), mangkokan (Notophanax scutellarium), 4) Vertical garden Plants include lavender (Lavendula angustifolia), selasih (Ocium sp.), pancawarna (Hydrongea macrophylla), cabe hias (Solanum pseudo-capsicum), 5) Shade plants, for example pule (Alstonia scholaris), ketapang (Terminalia catappa), kelapa (Cocus nucifera), kamboja (Plumeria sp.), beringin (Ficus benjamina) and 6) Cover crops such as bunga kriminil (Althenantera amoena), rumput gajah (Pennisetum purpureum), rumput jepang (Zoysia japonica). These plants are used by the people as a remedy for various diseases.Keywords: Traditional medicinal plants, landscape, thematic, SMAN 1 Pondidaha

Abstract The high velocity oxy-fuel (HVOF) combustion spray technique has been shown previously to be an excellent solution for depositing crystalline matrix nano-reinforced polymer coatings. Dense polymer coatings can be produced by controlling both the particle dwell time in the HVOF jet and through substrate thermal management. In composite materials, it is often desirable to incorporate the maximum amount of reinforcing material into the polymer matrix to achieve optimum mechanical properties. The experiments described here were performed to determine the maximum amount of different scales of silica particles that could be incorporated into a nylon 11 matrix and the time required to do so. Ashing results indicated a maximum amount of silica that can be incorporated. Also, the maximum level of silica incorporation occurs in a shorter time than previously believed. Microscopy, however, indicated that other physical changes continued to occur within the powders when ball milling was allowed to continue beyond this time.

Abstract The High Velocity Oxy-Fuel (HVOF) combustion spray process has been used successfully for spraying polymers and polymer-matrix composite coatings. Spraying of polymer ceramic composite powders produced by ball-milling nominal 60 ..m Nylon-11 with different size scale (7 nm to 15 µm) ceramic reinforcements is an effective method of producing semi-crystalline micron and nano-scale reinforced composite coatings. Polymer matrix composite coatings with nominal 10 vol. % of different size scale silica and alumina reinforcements have been produced. The levels of filler loading in both the feedstock powders and HVOF-sprayed coatings were determined by thermo-gravimetric analysis (TGA) and compared using ashing. Particle size analysis, microstructural characterization and the elemental compositions of the feedstock powders and as-sprayed coatings were determined by optical and scanning electron microscopy and energy dispersive spectroscopy. The influence of dispersion, distribution and size of the reinforcing phase was studied and correlated to coating microstructure and process parameter variations. The scratch resistance of the coatings was measured as a function of reinforcement size and compared with those of the pure HVOF-sprayed Nylon-11 coatings.