Earthquakes are natural events caused by tectonic plate movements and it is unpredictable. Thus, the building design regulation has an important role in ensuring the Earthquake resistant structure. A commonly used method is the response spectrum method. For different soil types, the value of the design spectra may increase or decrease. Therefore this study aims to determine the effect of soil type on the strength of reinforced concrete structures, especially the building behavior and structural internal forces. Analysis results show that the increase of base-shear value of Makassar is about 34% and 103% for medium soil and soft soil condition compared to hard soil. The increase of beam negative moment is about 27% to 39% in soft soil compared to hard soil, while the value is about 8% to 14% in medium soil compared to hard soil. The increase of beam positive moment varies considerably between 8% to 50%. The increasing moment is directly proportional to the required reinforcement area of the beam. Demand capacity ratio of column has also increased about 10% to 35% for medium soil and soft soil compared to hard soil.

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Faizah, R. and Widodo (2013) ‘Analysis on Nominal Seismic Load for Multi-stories Building Using Dynamic Response Spectrum Method’, in National Conference of Civil Engineering 7, p. S-201.

Hasan, A. and Astira, I. (2013) ‘Comparative Analysis of Lateral Displacement for High Rise Building With Variations of Shear Wall Shape and Location in The Royale Springhill Residences Apartment Project’, Civil Engineering and Environment Journal, 1(1), p. 47.

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Jingga, H., Suryanita, R. and Yuniarto, E. (2015) ‘Building Structure Response Based on Indonesia Earthquake Spectra for Capitals on Sumatra Island’, in Annual Civil Engineering 2015. Pekanbaru: ISBN: 978-979-792-636-6, p. 111.

National Standardization Agency (2012) Earthquake Resistance Design Procedures for Structural and Non-Structural Building. SNI 1726:2012. Jakarta.

National Standardization Agency (2013a) Minimum Load for Building Design and Other Structures. SNI 1727:2013. Jakarta.

National Standardization Agency (2013b) Structural Concrete Requirements for Building. SNI 2847:2013. Jakarta.

Soelarso, Baehaki and Novtikania, F. (2016) ‘Comparative Analysis of Horizontal Drift On Earthquake Resistant Building Using Lateral Bracing Based on SNI 03-1726-2002 and SNI 03-1726-2012’, Foundation Journal, 5(1), p. 24.

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