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sifat gas nitrogen dioksida

SNMPTN 2012 - Siap Belajar
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SELEKSI NASIONAL MASUK PERGURUAN TINGGI NEGERI Disertai TRIK SUPERKILAT dan LOGIKA PRAKTIS Tes Potensi Akademik Penalaran Verbal (Sinonim, Anonim, Analogi) Disusun Oleh : Pak Anang Kumpulan SMART SOLUTION dan TRIK SUPERKILAT Pembahasan Soal SNMPTN 2012 Tes Potensi Akademik Kode Soal 613 Penalaran Verbal (Sinonim, Anonim, Analogi) By Pak Anang (http://pak-anang.blogspot.com) 1. air : .... ≈ .... : hampa A. sungai – ruang B. kering – udara C. dingin – pengap D. es – kosong E. tetesan – vakum 5. hijau : .... ≈ .... : laut A. lumut – ikan B. klorofil – ombak C. rumput – pantai D. daun – asin E. hutan – kapal Pembahasan: ”Dinamakan kering karena tidak ada air, disebut hampa karena tidak ada udara.” 2. Pembahasan: ”Secara umum warna dari daun adalah hijau, secara umum rasa dari air laut adalah asin.” oven : .... ≈ .... : foto A. roti – kamera B. pemanggang – album C. panas – lensa D. gosong – model E. matang – fotografer 6. gurun : .... ≈ .... : hutan A. pasir – belantara B. sahara – pohon C. oasis – sungai D. matahari – rimbun E. kering – lebat Pembahasan: ”Hasil keluaran dari oven adalah roti, hasil keluaran dari kamera adalah foto.” 3. Pembahasan: ”Gurun yang luas dapat ditemukan di Sahara, pohon yang banyak dapat ditemukan di hutan.” murka : .... ≈ .... : benturan A. sedih – sakit B. mencaci – luka C. marah – tabrakan D. cemberut – tendangan E. kecewa – dorongan TRIK SUPERKILAT: ”Kata benda : Kata benda ≈ Kata benda : Kata benda” 7. ”Murka adalah salah satu jenis kemarahan yang hebat, tabrakan adalah benturan yang hebat.” produksi : .... ≈ perjalanan : .... A. pabrik – arah B. produk – tujuan C. mesin – kendaraan D. pekerja – kecepatan E. upah – pulang TRIK SUPERKILAT: Pembahasan: ”Kata sifat : Kata benda ≈ Kata sifat : Kata benda” ”Yang diharapkan dari proses produksi adalah produk, yang diharapkan dari sebuah perjalanan adalah tujuan.”

Investigation of different levels micro nutrients on tomato in ...

Use of greenhouse cultures accompanied by new techniques such as soilless or hydroponic culture on the one hand improves suitable control of plants nutrition and on the other hand it has created a great progress in greenhouse productions. In order to greenhouse tomato cultivar of Hamra was cultured in a hydroponic system and effect of micronutrients different levels was studied on it. The experiment design was as randomized complete block with five treatments and four replications. Experimental treatments were included: Lack of micronutrients application, Full application of sulfate manganese (4.06 mg/lit), Full application of sulfate zinc (4.42 mg/lit), 50% sulfate manganese (2.03 mg/lit) + 50% sulfate zinc (2.21 mg/lit) and Full application of sulfate manganese + Full application of sulfate zinc. The results showed that the highest fresh fruit yield, fruit dry matter percentage and content of Mn and Zn in fruit obtained from full application Mn, Zn and Mn + Zn. However micronutrients different levels had significantly effect on content of nitrogen, but they haven’t significantly effect on fruit size of tomato. Key words: Micronutrients, Tomato, Hydroponic culture, Yield.

Manganese deficiency, Tomato Iron deficiency ... - Pure Hydroponics

pH Management of Hydroponics Solutions A question often asked is what is the best pH for a particular crop nutrient solution. The answers given in many texts, and often by advisers to growers, are frequently based on misunderstood information. Many refer to the availability of nutrients to plants at different pHʼs based on research by Troug (1946) [Proc. Soil Sci. Soc. Am., 11:305-308] even using graphic illustrations of his findings in one form or another, generally showing a bar graph with wide portions in the pH area where the element is most widely available to the plant. I have seen similar representations said to show the availability of trace elements in a hydroponics solution. This graphic representation of availability of trace, and sometimes the major elements, only applies to plants being grown in mineral (clay based) soils. It is not relevant to hydroponics solutions.As plants use nutrients their roots release bicarbonate that raises the pH of nutrient solutions. By the early 1990ʼs I had observed that the published and advised pH at which crops were grown did not correspond to my observations. At the time phosphoric acid was being used to routinely acidify hydroponics solutions and was causing imbalances in nutrient solutions and blockages due to precipitates. It made sense to replace the phosphoric acid entirely with nitric acid which could, by monitoring pH, be added at a rate related to plant use replacing Nitrogen (N) used in growth periods and so maintain a better balanced solution free of unwanted precipitates.

Global Nitrogenous Water Soluble Fertilizers Market

Nitrogen is the most predominantly consumed nutrient among all the macro and micro elements required for plant growth. Nitrogenous fertilizers can be provided by soil application, fertigation or foliar application. In foliar process, concentration of nitrogen varies from 100ppm to 250ppm according to the needs of the plant.

United States - 3M
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Material Safety Data Sheet Copyright, 2012, 3M Company All rights reserved. Copying and/or downloading of this information for the purpose of properly utilizing 3M products is allowed provided that: (1) the information is copied in full with no changes unless prior written agreement is obtained from 3M, and (2) neither the copy nor the original is resold or otherwise distributed with the intention of earning a profit thereon. SECTION 1: PRODUCT AND COMPANY IDENTIFICATION PRODUCT NAME: 3M™ Universal Fuel Injector Cleaner PN 08956 MANUFACTURER: 3M DIVISION: Automotive Aftermarket ADDRESS: 3M Center, St. Paul, MN 55144-1000 EMERGENCY PHONE: 1-800-364-3577 or (651) 737-6501 (24 hours) Issue Date: 06/26/12 Supercedes Date: 06/11/12 Document Group: 06-2422-1 Product Use: Intended Use: Specific Use: Automotive Cleaner to remove deposits from auto fuel injectors SECTION 2: INGREDIENTS Ingredient C.A.S. No. % by Wt Toluene Diacetone Alcohol Xylene Methyl Alcohol Ethylbenzene Nitrogen Benzene 108-88-3 123-42-2 1330-20-7 67-56-1 100-41-4 7727-37-9 71-43-2 30 - 60 10 - 30 10 - 30 10 - 30 3- 7 0.5 - 1.5 < 0.1 SECTION 3: HAZARDS IDENTIFICATION 3.1 EMERGENCY OVERVIEW Specific Physical Form: Aerosol Odor, Color, Grade: solvent odor General Physical Form: Liquid Immediate health, physical, and environmental hazards: Flammable liquid and vapor. Closed containers exposed to heat from fire may build pressure and explode. Vapors may travel long distances along the ground or floor to an ignition source and flash back.

KUNCI JAWABAN UJIAN TENGAH SEMESTER

KUNCI JAWABAN UJIAN TENGAH SEMESTER Kode/Nama Mata Kuliah Waktu/Sifat Ujian : TKC106/Algoritma Pemrograman [Kelas B] : 90 Menit/Open Note [Score = 30] 1. Dua buah bilangan bulat dimasukkan melalui piranti masukan. Buatlah sebuah algoritma (pseudocode) untuk melakukan operasi-operasi berdasarkan kemungkinan-kemungkinan berikut: a. Apabila kedua bilangan adalah bilangan yang berbeda: Bilangan yang lebih kecil dijumlahkan dengan angka 10 dan hasilnya dicetak ke piranti keluaran Bilangan yang lebih besar dijumlahkan dengan angka 5 dan hasilnya dicetak ke piranti keluaran b. Apabila kedua bilangan adalah bilangan yang sama: Kedua bilangan dijumlahkan dan dibagi dengan angka 2, kemudian hasilnya dicetak ke piranti keluaran KETENTUAN: Tidak diperbolehkan menggunakan Operator LOGIKA! Jawaban: Algoritma operasi_PENYELEKSIAN Deklarasi: bil1,bil2: integer Deskripsi: read(bil1,bil2) if bil1 = bil2 then write((bil1 + bil2)/2); else if bil1 < bil2 then write(bil1 + 10) write(bil2 + 5) else write(bil1 + 5) write(bil2 + 10) endif endif [Score = 10] 2. Translasikan algoritma pada soal no (1) ke dalam Bahasa Pascal! Jawaban: program operasi_PENYELEKSIAN; var bil1,bil2: integer; begin bilangan write('Masukkan bilangan pertama! ');readln(bil1); ');readln ln(bil2); write('Masukkan bilangan kedua! ');readln(bil2); if bil1 = bil2 then writeln('Oleh karena kedua bilangan adalah sama, maka hasil penjumlahan kedua bilangan yang kemudian dibagi 2 = ',((bil1 + bil2)/2):3:0) else

How To Prevent Head Gasket Failures Caused By ... - Federal-Mogul

Detonation (also called "spark knock") is an erratic form of combustion that can cause head gasket failure as well as other engine damage. Detonation occurs when excessive heat and pressure in the combustion chamber cause the air/fuel mixture to auto-ignite. This produces multiple flame fronts within the combustion chamber instead of a single flame kernel. When these multiple flames collide, they do so with explosive force that produces a sudden rise in cylinder pressure accompanied by a sharp metallic pinging or knocking noise. The hammer-like shock waves created by detonation subject the head gasket, piston, rings, spark plug and rod bearings to severe overloading. Mild or occasional detonation can occur in almost any engine and usually causes no harm. But prolonged or heavy detonation can be very damaging. So if you hear knocking or pinging when accelerating or lugging your engine, you probably have a detonation problem. 1. Try a higher octane fuel. The octane rating of a given grade of gasoline is a measure of its detonation resistance. The higher the octane number, the better able the fuel is to resist detonation. Most engines in good condition will run fine on regular grade 87 octane fuel. But engines with high compression ratios (over 9:1), turbochargers, superchargers, or with accumulated carbon deposits in the combustion chamber may require 89 or higher octane fuel. How a vehicle is used can also affect its octane requirements. If a vehicle is used for towing or some other application where the engine is forced to work hard under load, a higher octane fuel may be necessary to prevent detonation. If switching to a higher octane fuel fails to eliminate a persistent detonation problem, it probably means something else is amiss. Anything that increases normal combustion temperatures or pressures, leans out the air/fuel mixture, or causes the engine to run hotter than normal can cause detonation. 2. Check for loss of EGR. The Exhaust Gas Recirculation (EGR) system is one of the engine's primary emission controls. Its purpose is to reduce oxides of nitrogen (NOX) pollution in the exhaust. It does this by "leaking" (recirculating) small amounts of exhaust into the intake manifold through the EGR valve. Though the gases are hot, they actually have a cooling effect on combustion temperatures by diluting the air/fuel mixture slightly. Lowering the combustion temperature reduces the formation of NOX as well as the octane requirements of the engine.

Coflexip® - Flexible Steel Pipe for Drilling and Service ... - Technip

DESCRIPTION OF A COFLEXIP® FLEXIBLE LINE The Coflexip® Flexible Line Coflexip® products are designed for oilfield services, both on and offshore, where heavy duty is required in combination with Flexible lines are manufactured in long continuous sections (up to several kilometres) and are cut to fit each client's requirements. End fittings with the most common types of end connectors are kept in stock thus minimising delivery times. End connectors not kept in stock will be machined or obtained according to the client's specifications. Delivery time depends mainly on the type of end connectors required and our client’s particular specifications. The pipe structure Coflexip® pipes are composed of successive layers of steel and thermoplastic to produce unique structures that have the strength and durability of steel pipes combined with the flexibility of reinforced rubber hoses. Each layer works independently from the others, as no vulcanisation is used during manufacturing. This results in the structural stability of the pipe. flexibility and Functions of Coflexip® pipe components reliability. These requirements are in applications such as: Choke and kill lines Rotary and vibrator lines Test lines Hydraulic lines Acid and cement lines Nitrogen lines Coflexip® flexible pipes for drilling and service applications are manufactured by the Drilling & Refining Applications Division of the Technip Group 2 1. The thermoplastic inner tube makes the pipe leak-tight. 2. The interlocked zeta and flat steel spiral pressure carcass resist internal pressure and external crushing loads. 3. The intermediate thermoplastic sheath is an anti-friction layer. 4. The double crosswound steel armours resist axial loads, protect the pipe from torsional strain resulting from handling and working conditions. 5. The thermoplastic outer jacket protects the armours from external corrosion. 6. The Stainless Steel Outer Wrap (SSOW), protects the pipe from mechanical impact, abrasion, weathering and accidental mishandling.

SBMPTN 2013 - Share PDF Online
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Analisis Bedah Soal SBMPTN 2013 SELEKSI BERSAMA MASUK PERGURUAN TINGGI NEGERI Disertai TRIK SUPERKILAT dan LOGIKA PRAKTIS Kimia IPA Disusun Oleh : Pak Anang Roy Handerson Kumpulan SMART SOLUTION dan TRIK SUPERKILAT Analisis Bedah Soal SBMPTN 2013 Kimia IPA By Pak Anang (http://pak-anang.blogspot.com) Berikut ini adalah analisis bedah soal SBMPTN untuk materi Kimia IPA. Soal-soal berikut ini dikompilasikan dari SNMPTN empat tahun terakhir, yaitu SNMPTN 2009, 2010, 2011 dan 2012. Soal-soal berikut disusun berdasarkan ruang lingkup mata pelajaran Kimia SMA, dan juga disertakan tabel perbandingan distribusi soal dan topik materi Kimia yang keluar dalam SNMPTN empat tahun terakhir. Dari tabel tersebut diharapkan bisa ditarik kesimpulan bagaimana prediksi soal SBMPTN yang akan keluar pada SBMPTN 2013 nanti. No Ruang Lingkup Struktur Atom Sistem Periodik Unsur Ikatan Kimia Asam Basa Bronsted-Lowry Ph Asam Basa Titrasi Asam Basa Larutan Penyangga Hidrolisis Garam Tetapan Hasil Kali Kelarutan (Ksp) Reaksi Redoks Sel Volta Sel Elektrolisis Hukum Dasar Kimia (Hukum Proust) Persamaan Reaksi dan Konsep Mol Hitungan Kimia Sifat Koligatif Koloid Kimia Unsur Tata Nama Senyawa Karbon dan Isomer Reaksi-reaksi Senyawa Karbon Identifikasi Senyawa Karbon Benzena dan Turunannya Termokimia Laju Reaksi Kesetimbangan Kimia JUMLAH SOAL SNMPTN 2009 SNMPTN 2010 SNMPTN 2011 SNMPTN 2012 SBMPTN 2013 Bimbel SBMPTN 2013 Kimia IPA by Pak Anang (http://pak-anang.blogspot.com) Halaman 1 1. Struktur Atom 1. (SNMPTN 2010) Konfigurasi ion besi (III), 26 Fe3+ , mempunyai elektron tidak berpasangan sebanyak .... A. Dua B. Tiga C. Empat D. Lima E. Enam

Engine Exhaust Controls The engine exhaust emission ... - Honda

Engine Exhaust Controls The engine exhaust emission control systems are designed to control combustion during idle, acceleration, cruise, and deceleration. These systems are entirely separate from the crankcase and evaporative emission control systems described previously. PGM-FI System The PGM-FI system consists of three independent subsystems; Air Intake, Electronic Control and Fuel Control, thus allowing more accurate control of air/fuel ratios under all operating conditions. The Electronic Control Unit (ECU) detects the amount of air drawn into the cylinders and determines the amount of fuel to be injected to provide the optimum air/fuel ratio for all engine needs. Ignition Timing Control System This system automatically controls the ignition timing to reduce the amount of HC and NOx. Exhaust Gas Recirculation (EGR) The EGR system is designed to control the formation of oxides of nitrogen (NOx) caused when fuel mixture burns at high temperature. It works by recirculating exhaust gas through the EGR valve and intake manifold into the combustion chambers where it reduces peak temperature by diluting the air/fuel mixture. Catalytic Converter The catalyst is used to convert hydrocarbons (HC), carbon monoxide (CO) and oxides of nitrogen (NOx) in the exhaust gas to carbon dioxide (CO 2 ), dinitrogen (N2) and water vapor.

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