Pengaruh Kepemilikan Institusional dan Struktur Modal Terhadap Kinerja Keuangan

Fluctuations in coal prices during 2012 - 2019 have an impact on the company's financial performance. Companies are required to evaluate and analyze their financial performance. Many factors affect the company's financial performance. The level of control over management and accountability for financial statements is one of the supervisory efforts that can improve financial performance. This can also suppress managers' tendency to take opportunistic actions for their own interests, which can lead to agency conflicts. The purposes of this research are to analyze the effect of institutional ownership, capital structure, PSAK No. 64, and PP No. 78 / 2010 on the financial performance of Coal Mining Companies listed on the Indonesia Stock Exchange. The type of research is quantitative research. The unit of analysis of this research is the financial reports of listed coal companies on the Indonesia Stock Exchange for 2012 - 2019.The research results showed that the capital structure has a significant and negative effect on financial performance. In contrast, institutional ownership is insignificant and has a positive impact, while PSAK no. 64 and PP. No. 78/2010 has a negligible and negative effect on financial performance

N-(4-Methyl-2-pyrid­yl)-p-toluidine

In the title compound, C13H14N2, the dihedral angle between the aromatic rings is 48.1 (1)° and the bridging C—N—C bond angle is 127.24 (12)°. In the crystal, intermolecular N—H⋯N hydrogen bonding about a center of inversion generates a hydrogen-bonded dimer

N-(2-Pyrid­yl)-4-toluidine

There are two mol­ecules in the asymmetric unit of the title compound, C12H12N2, with dihedral angles between the aromatic rings of 48.35 (12) and 51.02 (12)°. In the crystal structure, both mol­ecules form inversion dimers, linked by pairs of N—H⋯N hydrogen bonds

Tetra-μ-acetato-κ8 O:O′-bis­{[2-(m-tolyl­amino)pyridine-κN]copper(II)}

In the crystal structure of the title compound, [Cu2(C2H3O2)4(C12H12N2)2], the binuclear mol­ecule lies about a center of inversion; the four acetate groups each bridge a pair of CuII atoms. The coordination of the metal atom is distorted square-pyramidal, with the bonding O atoms comprising a square basal plane and the coordinating N atom of the N-heterocycle occupying the apical position. The pyridine ring is twisted with respect to the benzene ring at a dihedral angle of 45.68 (16)°. Intra­molecular N—H⋯O hydrogen bonding is present between the imino and carb­oxy groups

Tetra-μ-acetato-κ8 O:O′-bis­{[4-methyl-2-(m-tolyl­amino)pyridine-κN]copper(II)}

In the crystal structure of the title binuclear complex, [Cu2(CH3COO)4(C13H14N2)2], the four acetate groups each bridge a pair of CuII atoms. The coordination of the metal atoms is distorted square-pyramidal, with the bonding O atoms comprising a square basal plane and the coordinating N atom of the N-heterocycle occupying the apical position. In the two N-hetercycle ligands, the benzene rings are twisted with respect to the pyridine rings, making dihedral angles of 53.1 (2) and 54.2 (2)°. Intra­molecular N—H⋯O hydrogen bonding is present between the imino and carb­oxy groups. The crystal studied was a non-merohedral twin with a minor twin component of 21.4%

2-(3-Chloro­anilino)pyridine

In the title compound, C11H9ClN, the dihedral angle between the aromatic ring planes is 44.2 (1)° and the bridging C—N—C bond angle is 127.60 (19)°. The amino N—H grouping makes a hydrogen bond to the pyridyl N atom of an adjacent mol­ecule across a center of inversion, generating a hydrogen-bonded dimer

Evaluation of contributing factors towards landslide risk at UiTM Sabah Branch, Kota Kinabalu Campus / Ir Basir Noordin, Prof. Dr. Roslan Zainal Abidin and Mohd Fairuz Bachok

Recently, the state of Sabah is facing a serious problem with landslides occurrence. With rapid development from government and private sector, this activity will worsen the said problems. However, with good planning and management on the development programme, the landslide problems can be minimized. As such, a research titled "Evaluation of Contributing Factors Towards Landslide Risk at UiTM Sabah Branch, Kota Kinabalu Campus u was carried out to identify the factors causing landslide. The scope of the research is to analyse all the factors such as rainfall, soil composition, land use, slope length and slope steepness at the campus. From the study, it is found the main factors contributing towards landslide event in the campus area are rainfall and soil composition. Other factors such as land use, slope steepness and slope length are also contributing towards landslide but at a very minimal degree. Therefore, it is hoped that the outcome of this research will highlight the important of knowing the actual care of any landslide occurrence in our country rather than blaming the nature besides taking into consideration the possibility of human disturbance

Tetra-μ-acetato-κ8 O:O′-bis­{[N-(4-methyl­phen­yl)pyridin-2-amine-κN 1]copper(II)}(Cu—Cu)

The complete dinuclear mol­ecule of the title complex, [Cu2(CH3COO)4(C12H12N2)2], is generated by a centre of inversion. The CuII atoms are connected [Cu—Cu = 2.6329 (16) Å] and bridged by four acetate ligands. The distorted octa­hedral coordination geometry is completed by a terminal pyridine N atom. The amine H atom forms an intra­molecular N—H⋯O hydrogen bond

Tetra-μ-acetato-κ8 O:O′-bis­[(2-phen­oxy­pyrimidine-κN 1)copper(II)](Cu—Cu)

The complete dinuclear mol­ecule of the title complex, [Cu2(CH3COO)4(C10H8N2O)2], is generated by a centre of inversion. The CuII atom is in a distorted octa­hedral coordination geometry defined by four O atoms derived from four bridging acetate ligands, a terminally connected pyrimidine N atom and a Cu atom