Page 38 - Gelombang Optik

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DAFTAR PUSTAKA

Fiebig, W., & Wróbel, J. (2020). Energy accumulation in mechanical resonance

and its use in drive systems of impact machines. Archives of Civil and

Mechanical Engineering, 20(1), 1–11.

Georgi, H., & Stumpf, F. B. (1993). The Physics of Waves

. The Journal of the Acoustical Society of America, 94(6), 3529–3529.

Glancoli.C, D. (1997). Fisika Jilid1 edisi empat. In Erlangga. Erlangga.

GowriP, DeepikaD, & KrithikaS. (2017). A Case Study on Simple Harmonic

Motion and Its Application. International Journal of Latest Engineering

and Management Research, 02(08), 51–60.

Halliday, Resnick, & Walker. (2011). Fundamentals of Physics. Antimicrobial

Agents and Chemotherapy, 53(12), 160.

Hirose, Lonngren. Introduction To Wave Phenomena. A Wiley Interscience

Publication

Ma, Y., Chang, H., Wu, Z., Jiang, Y., Li, J., Yin, X., Liu, Q., & Zhang, L.

(2019). Theoretical study of the energies of the oscillating system with a
well-distributed mass of the spring. Sound and Vibration, 53(4), 139–149.

Muspa, R. M., & Pramudya, Y. (2023). Studi Numerik Gerak Osilasi Teredam
Balok Pada Bidang Miring. JRST (Jurnal Riset Sains Dan Teknologi), 7(1),

59.
Nurachmandani, S. (2009). Fisika 1 : Untuk SMA/MA kelas X.

Palupi, D. S., Suharyanto, & Karyono. (2009). Fisika Untuk Kelas XI SMA dan

MA.

Sa’adah, N., & Prabowo, P. (2021). Pengembangan Alat Peraga Bandul

Matematis Berbasis Sensor Proximity pada Materi Getaran Harmonis untuk

Siswa SMA Kelas X. IPF: Inovasi Pendidikan Fisika, 10(1), 109–118.

Sari, N. S. F., & Putra, N. M. D. (2022). Pengembangan Modul Praktikum

Osilasi Teredam pada Pegas Berbasis Analisis Video Berbantuan Tracker.

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