{"id":11104,"date":"2017-10-01T01:14:57","date_gmt":"2017-09-30T18:14:57","guid":{"rendered":"https:\/\/example.com\/?p=11104"},"modified":"2023-12-12T12:11:19","modified_gmt":"2023-12-12T05:11:19","slug":"cara-mudah-mengingat-rumus-bernoulli","status":"publish","type":"post","link":"https:\/\/www.ruangguru.com\/blog\/cara-mudah-mengingat-rumus-bernoulli","title":{"rendered":"Cara Mudah Mengingat Rumus Bernoulli | Fisika Kelas 11"},"content":{"rendered":"

\"fisika<\/p>\n

RG Squad, kalian percaya <\/span>kan<\/span><\/i> kalau air, gas, dan udara dapat mengalir? Zat dapat mengalir dan bisa mengalami perubahan bentuk secara terus menerus karena adanya gaya dari luar. Zat itu disebut fluida.<\/strong> Nah\u00a0<\/em>kali ini secara khusus kita akan belajar tentang rumus Bernoulli.<\/strong> Eits<\/em>, sebelumnya kita akan bahas sedikit tentang\u00a0 fluida ya.\u00a0<\/span><\/span><\/p>\n

<\/p>\n

Dalam ilmu fisika, materi fluida dibedakan menjadi dua jenis <\/span>loh<\/span><\/i>, yaitu fluida statis dan fluida dinamis.<\/strong> Fluida yang mengalir<\/strong> namanya fluida dinamis.<\/strong> Sedangkan, fluida statis adalah<\/strong> fluida yang tidak mengalir atau bergerak. Terus ngapain <\/span>dong<\/span><\/i> fluida statis? Fluida statis hanya menempati ruang atau wadah. <\/span><\/p>\n

Dalam mekanika fluida, zat cair berada pada pipa mendatar. Tekanan fluida yang paling besar memiliki kelajuan aliran kecil. Sedangkan, fluida yang memiliki tekanan kecil memiliki kelajuan aliran besar. Hal tersebut sesuai dengan hukum Bernoulli. Bernoulli menyatakan bahwa zat yang tidak bisa dimampatkan, seperti air dan minyak, berlaku rumus ini:<\/span><\/p>\n

P + \u00bd<\/strong>.\u03c1.v\u00b2<\/strong>\u00a0+ \u03c1.g.h = konstan<\/strong><\/span><\/p>\n

Perumusan tersebut berlaku apabila tidak ada gaya luar yang bekerja pada fluida yang mengalir. Fluida yang mengalir hanya dipengaruhi gaya berat. Kedua, tidak terjadi kehilangan energi pada fluida yang mengalir, sehingga berlaku hukum kekekalan energi mekanik. Apa <\/span>tuh <\/span><\/i>energi mekanik? Energi mekanik adalah<\/strong> jumlah dari energi kinetik dan energi potensial. Dengan demikian, ketika diturunkan dari:<\/span><\/span><\/p>\n

F = P. A atau tekanan x luas permukaan \u2026.<\/strong>(persamaan 1)<\/span><\/p>\n

EM = Ek + Ep
\n<\/strong>= \u00bd. m. v<\/strong>2<\/strong> + m.g.h \u2026. <\/strong>(persamaan 2)<\/span><\/p>\n

Dihasilkanlah rumus Bernoulli. Dalam dua keadaan yang berbeda, rumus Bernouli dapat ditulis menjadi<\/span><\/p>\n

\"formula
\n<\/span><\/p>\n

Nah<\/i>, untuk lebih mudah mengingat rumus Bernoulli, massa (m) di energi kinetik dan energi potensial diganti dengan \u03c1. Kemudian, tambahkan tekanan fluida pada ruas kiri dan ruas kanan.<\/span><\/span><\/p>\n

\"Rumus<\/span><\/p>\n

Biar kalian lebih paham, berikut ada contoh soal dan pembahasannya.<\/p>\n

“Jika kecepatan aliran air sebesar 10 m\/s, \u00a0ketinggian pipa di posisi B 5 m dari atas tanah, berapa tekanan air saat fluida diberi tekanan di posisi A sebesar 10 Pascal dengan kecepatan air 20 m\/s, tinggi pipa 1 m dari atas tanah?”<\/span><\/em><\/p>\n

Pembahasan<\/span>: <\/span><\/p>\n

P1<\/strong>\u00a0<\/strong>+ \u00bd<\/strong>.\u03c1.v<\/strong>1\u00b2<\/strong>\u00a0+ \u03c1.g.h<\/strong>1<\/strong> = P<\/strong>2<\/strong> + \u00bd<\/strong>.\u03c1.v<\/strong>2\u00b2<\/strong>\u00a0+ \u03c1.g.h<\/strong>2<\/strong> \u00a0<\/strong><\/span><\/p>\n

10 + \u00bd. 1000. 20<\/span>2<\/span> + 1000. 10. 1= P<\/span>2<\/span> + \u00bd. 1000. 10<\/span>2<\/span>+1000.10.5<\/span><\/p>\n

10 + 200.000 + 10.000 \u2013 50.000 \u2013 50.000 = P<\/span>2<\/span><\/p>\n

Jadi, tekanan air pada penampang kedua di posisi B adalah 110.010 Pascal atau 110,01 kPa.<\/span><\/p>\n

Nah, <\/span><\/i>cukup mudah bukan mengingat rumus Bernoulli? Ruangguru masih punya berbagai rumus mudah lainnya, <\/span>lho.\u00a0<\/span><\/i>Penasaran? Ayo segera gabung ke ruangguru digital bootcamp<\/strong><\/a> sekarang!<\/span><\/span><\/p>\n

\"Daftar<\/a><\/p>\n","protected":false},"excerpt":{"rendered":"

RG Squad, kalian percaya kan kalau air, gas, dan udara dapat mengalir? Zat dapat mengalir dan bisa mengalami perubahan bentuk secara terus menerus karena adanya gaya dari luar. Zat itu disebut fluida. Nah\u00a0kali ini secara khusus kita akan belajar tentang rumus Bernoulli. Eits, sebelumnya kita akan bahas sedikit tentang\u00a0 fluida ya.\u00a0<\/p>\n","protected":false},"author":16,"featured_media":11104,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"_knawatfibu_url":["https:\/\/cdn-web.ruangguru.com\/landing-pages\/assets\/hs\/Header%20blog%20RG\/Fisika_11.jpg"],"_edit_lock":["1702357879:1"],"_edit_last":["1"],"_aioseo_title":[null],"_aioseo_description":[null],"_aioseo_keywords":[""],"_aioseo_og_title":[null],"_aioseo_og_description":[null],"_aioseo_og_article_section":[""],"_aioseo_og_article_tags":[""],"_aioseo_twitter_title":[null],"_aioseo_twitter_description":[null]},"categories":[513,518],"tags":[127,10,37],"class_list":["post-11104","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-fisika","category-fisika-sma-kelas-11","tag-fisika-xi","tag-konsep-pelajaran","tag-sma"],"yoast_head":"\nCara Mudah Mengingat Rumus Bernoulli | Fisika Kelas 11<\/title>\n<meta name=\"description\" content=\"RG Squad, kalian percaya kan kalau air, gas, dan udara dapat mengalir? 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