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... nk with all reagents following...</p>]]></content:encoded>
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<?xml version="1.0" encoding="UTF-8"?><rss version="2.0" xmlns:content="http://purl.org/rss/1.0/modules/content/" xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:sy="http://purl.org/rss/1.0/modules/syndication/" > <channel> <title>RSS Raw Goods</title> <link>https://rawgoods.org/</link> <description>Raw Goods</description> <lastBuildDate>Mon, 15 Sep 2025 09:24:22 +0200</lastBuildDate> <language>en</language> <sy:updatePeriod>daily</sy:updatePeriod> <sy:updateFrequency>1</sy:updateFrequency> <item> <title>Calcium oxide hydrochloric acid</title> <description>Purpose The lime should have a purity of at least 70% by weight of CaO when tested as follows: Procedure Take one gram of powdered lime, accurately weighed, in a platinum crucible. Place it in an oven maintained at 105 + 20C ...</description> <content:encoded><![CDATA[<img src="/img/uranium_chemistry_special_nuclear_material.jpg" alt="Acid is uneconomical if the" align="left" /><p>Purpose The lime should have a purity of at least 70% by weight of CaO when tested as follows: Procedure Take one gram of powdered lime, accurately weighed, in a platinum crucible. Place it in an oven maintained at 105 + 20C until, on cooling and weighing, constant mass is obtained. Heat the crucible first gently and then ignite in a muffle furnace at 10000 Cool the crucible in a desiccator and weigh to a constant mass. Transfer the ignited lime, to a beaker, add 50 ml of water and mix well. Add 10 to 15 ml of concentrated hydrochloric acid, and boil for 15 min. Filter, wash with hot water, ignite and weight to constant mass. To the filtrate, add concentrated hydrochloric acid, if necessary, in sufficient amount to make the total amount equivalent to 10 to 15 ml of concentrated hydrochloric acid. Add a few drops of nitric acid and boil. Dilute to 200-250 ml. Add slight excess of ammonium hydroxide and keep just below the boiling point until the odour of ammonia is barely perceptible. Filter off the iron and aluminium hydroxide while hot, collecting the filtrate in a 250 ml volumetric flask. Wash with hot water. Ignite the residue in a platinum crucible, blast, cool in a desiccators and weigh as aluminium oxide and ferric oxide. Make up the filtrate to 250 ml. Pipette out 50 ml of the filtrate in a beaker and dilute to 100 ml. Heat to boiling and add slowly about 35 ml of boiling ammonium oxalate solution. Continue boiling for 2 or 3 min and allow the precipitated calcium oxalate to settle for half an hour. Filter the precipitated calcium oxalate through filter paper. Wash thoroughly with small portions of dilute ammonium hydroxide (1 N) and then with hot water until the washing do not decolourise a hot dilute potassium permanganate solution in the presence of dilute sulphuric acid. Puncture the filter paper and transfer the precipitate to the beaker already used for precipitation with a fine jet of hot water. Add about 50 ml of dilute sulphuric acid, heat to 600C and titrate with standard potassium permanganate solution with constant stirring. Towards the end of the titration, introduce the filter paper which was used for filtration into the titration vessel and carry out the titration till the end point is reached. Carry out a blank with all reagents following...</p>]]></content:encoded> <category><![CDATA[Calcium Oxide]]></category> <link>https://rawgoods.org/CalciumOxide/calcium-oxide-hydrochloric-acid</link> <guid isPermaLink="true">https://rawgoods.org/CalciumOxide/calcium-oxide-hydrochloric-acid</guid> <pubDate>Mon, 15 Sep 2025 05:24:00 +0000</pubDate> </item> <item> <title>Where to Buy iron oxide powder?</title> <description>Black Iron Oxide / Magnetite Synonyms: Magnetite, Fe3O4, Black iron oxide, Iron(II, III) oxide, Ferrous ferric oxide, Black iron oxide nanoparticle, MIL-I-275B, CAS# 1309-38-2, CAS# 1317-61-9 Magnetic oxide, Triiron tetraoxide ...</description> <content:encoded><![CDATA[<img src="/img/magnetic_powder_turns_silly_putty_into.jpg" alt="Magnetic Powder Turns Silly" align="left" /><p>Black Iron Oxide / Magnetite Synonyms: Magnetite, Fe3O4, Black iron oxide, Iron(II, III) oxide, Ferrous ferric oxide, Black iron oxide nanoparticle, MIL-I-275B, CAS# 1309-38-2, CAS# 1317-61-9 Magnetic oxide, Triiron tetraoxide, Magnetic black, Ferrosoferric oxide, Iron black, Fenosoferric oxide, Black iron BM, Iron(III) oxide, Ferro ferric oxide, Black iron sand, Magnetite sand, River sand, Beach magnetite sand, Satetsu, Super paramagnetic iron oxide, b) Fe3H2O4 Black Iron Oxide / Magnetite Description: a) Magnetite is a natural iron oxide magnet, hence the name, giving it a very nice distinguishing characteristic. Magnetite is the most magnetic of all the minerals on Earth. b) Magnetite is a member of the spinel group which has the standard formula A(B)2O4. The A and B represent different metal ions that occupy specific sites in the crystal structure. In the case of magnetite, Fe3O4, the A metal is Fe +2 and the B metal is Fe +3; two different metal ions in two specific sites. This arrangement causes a transfer of electrons between the different irons in a structured path or vector. This electric vector generates a magnetic field. c) Lustrous black, magnetic mineral, Fe3O4. It occurs in crystals of the cubic system, in masses, and as a loose sand. It is one of the important ores of iron (magnetic iron ore) and is a common constituent of igneous and metamorphic rocks. It is found in various parts of the United States, Norway, Sweden, and the Urals. A variety of magnetite, lodestone (or loadstone) exhibits polarity and is especially interesting for its natural magnetism; Magnet Cove, Ark. became famous as a source. d) Magnetite is sometimes found in large quantities in beach sand. Such mineral sands or iron sands or black sands are found in various places such as California and the west coast of New Zealand. The magnetite is carried to the beach via rivers from erosion and is concentrated via wave action and currents. Black Iron Oxide / Magnetite Typical Chemical Properties Available: a) Purity Available: 96% to 99.9% b) A food grade magnetite is readily available from READE c) A Superparamagnetic iron oxide is available (10 microns in size)- no magnetic memory Black Iron Oxide / Magnetite Typical Physical Properties Available: a) Lumps, pieces, targets, granules and various powder granulations down to 0.020 microns b) Standard low micron APS (d50) granulations are readily available at 10 microns, 18 microns and 63 microns c) Black iron oxide nanoparticles are readily available as small as 10 nanometers d) Custom granulations are available at premium pricing Black Iron Oxide / Magnetite Nominal Physical Constants: Luster Metallic Tenacity Brittle ID Mark Ferromagnetic Solid Density (gm/cm3) 5.1 Streak Black pH Transparency Opaque Mohs Hardness @20°C 5.5 to 6.5 Fracture Conchoidal Specific Gravity 5.17 to 5.18 Color Black to grayish Crystal System Isometric Mohs Hardness 5.5 to 6.0 Particle Shape Irregular Magnetic Properties Ferri magnetic Black Iron Oxide / Magnetite Typical Applications: a) Magnetite is an important ore of iron. Its perfect crystals are also famous among mineral collectors. This mineral is of scientific interest because of its special magnetic properties. b) Magnetite is used as a pigment for magnetic applications, magnetic graphic applications, polishing compounds, cosmetics, medicines, polymer and rubber filler, building and construction, appliances, and magnetic inks. 50 lbs. bags, poly-lined fiber drums, bulk bags and loose bulk Black Iron Oxide / Magnetite TSCA Status: a) Magnetite components are listed on the TSCA inventory. b) A food grade magnetite powder is readily available from READE in commercial quantities.</p>]]></content:encoded> <category><![CDATA[Iron Oxide]]></category> <link>https://rawgoods.org/IronOxide/where-to-buy-iron-oxide-powder</link> <guid isPermaLink="true">https://rawgoods.org/IronOxide/where-to-buy-iron-oxide-powder</guid> <pubDate>Wed, 06 Aug 2025 14:55:00 +0000</pubDate> </item> <item> <title>Nitric Oxide, blood vessel</title> <description>Nitric oxide is a very unusual molecule to be playing a role in physiological regulation. It is a free radical and volatile gas with a half-life in the body measured in seconds. We have already briefly encountered nitric oxide in ...</description> <content:encoded><![CDATA[<img src="/img/the_stunning_blood_vessels_of_our.jpg" alt="Blood Vessels Sem" align="left" /><p>Nitric oxide is a very unusual molecule to be playing a role in physiological regulation. It is a free radical and volatile gas with a half-life in the body measured in seconds. We have already briefly encountered nitric oxide in the context of oxygen radicals in phagolysosomes. There nitric oxide is synthesized to interact with the oxygen radicals in killing phagocytized microbes. But curiously enough, nitric oxide also serves as a neurotransmitter in certain places. However, it is very different from other neurotransmitters in that is can easily diffuse over short distances and affects more than one cell. Also, in blood vessels nitric oxide is released as a paracrine that relaxes smooth muscle cells. This leads to the dilation of blood vessels. Nitric oxide synthesis begins when the enzyme nitric oxide synthase(NOS) is activated. This enzyme acts on an amino acid (L-arginine) to create nitric oxide. There are three forms of nitric oxide synthase, which correspond to its three areas of action: phagocytes, neurons, and endothelial cells of blood vessels. When nitric oxide acts as a regulatory molecule, it diffuses to and activates a guanylyl cyclase that is located in the cytosol of the target cell (soluble guanylyl cyclase). Guanylyl cyclase converts GTP to cyclic GMP (cGMP), which then serves as the second messenger that causes the cellular action. The diagram to the right shows how activation of nitric oxide synthase in an endothelial cell leads to dilation of a blood vessel. The stimulus, for example, might be a regulatory molecule that activates the nitric oxide synthase in the endothelium. The resulting nitric oxide diffuses to the surrounding smooth muscle cells, increasing cGMP which leads to relaxation of the smooth muscle around the the periphery of the blood vessels. This allows the blood vessel to dilate, allowing greater blood flow. Several important drug actions revolve around nitric oxide. Nitroglycerin is converted to nitric oxide in the blood, which is why it dilates of blood vessels serving the heart. Sildenafil (Viagra®) and similar drugs for treating erectile dysfunction specifically block a form of phosphodiestase found in the penis. The function of the phosphodiesterase is to break down cGMP. Sildenafil causes more cGMP to be present, and thus more dilation of the blood vessels supplying blood to the erectile tissue in the penis .</p>]]></content:encoded> <category><![CDATA[Nitric Oxide]]></category> <link>https://rawgoods.org/NitricOxide/nitric-oxide-blood-vessel</link> <guid isPermaLink="true">https://rawgoods.org/NitricOxide/nitric-oxide-blood-vessel</guid> <pubDate>Wed, 30 Jul 2025 14:52:00 +0000</pubDate> </item> <item> <title>Nitric oxide Test</title> <description>Nitric Oxide Test Strips allow you to test the amount of Nitric Oxide in your blood. Beets are the New Black Beets are often overlooked among the pantheon of fruits and vegetables. Incomparable apples and oranges have long been ...</description> <content:encoded><![CDATA[<img src="/img/the_biostimulator_luxwaves.jpg" alt="The Biostimulator" align="left" /><p>Nitric Oxide Test Strips allow you to test the amount of Nitric Oxide in your blood. Beets are the New Black Beets are often overlooked among the pantheon of fruits and vegetables. Incomparable apples and oranges have long been the headliners. Corn and potatoes are manly and come from states that start with the letter I. Lettuce has cornered the market on the whole salad thing, although Kale keeps trying to get a foot in the door. Until recently, beets didn’t get much press outside Russian novelists alluding to the hardscrabble lives of the peasantry. Now beets are in the spotlight because of their high concentration of healthy vegetable nitrates. The body converts these nitrates into nitric oxide and zoom! off you go, your circulation improved, stamina increased. You’ve been Six –Million-Dollar-Manned by a shot of beet juice. Go Ahead and Test It You might say, “But hey, like, no way is that possible.” (or if you’re more eloquent than that) “Zounds!, ” you’d probably say, wiping clean your precious monocle. “Unlikely proposition!” It’s both possible and likely! It’s also very testable thanks to Berkeley Test’s Nitric Oxide Test Strips. These fancy strips are easy to use. Pop one end on your tongue, take it out after five seconds. Touch the saliva end to the test end and it will turn pink, dark pink or not-so-pink red depending on your nitric oxide levels. We Sell Nitric Oxide Test Strips Best of all, you can purchase nitric oxide test strips along with your Red Rush to make sure that you’re getting enough in your system to keep your body working at peak levels. In fact, the first 1, 500 orders of Red Rush will come with four Berkeley NO strips in a deal we’re calling the Early Berk(eley) Special. (Full disclosure: No one else around here is actually calling it that.) “Berkeley Test reminds me to keep natural whole foods rich in nitric oxide as an integral component to my training diet for optimal performance.”</p>]]></content:encoded> <category><![CDATA[Nitric Oxide]]></category> <link>https://rawgoods.org/NitricOxide/nitric-oxide-test</link> <guid isPermaLink="true">https://rawgoods.org/NitricOxide/nitric-oxide-test</guid> <pubDate>Wed, 23 Jul 2025 14:52:00 +0000</pubDate> </item> <item> <title>Oxidation state of sulfur</title> <description>In chemistry, the oxidation state is an indicator of the degree of oxidation of an atom in a chemical compound. The formal oxidation state is the hypothetical charge that an atom would have if all bonds to atoms of different ...</description> <content:encoded><![CDATA[<img src="/img/what_is_the_oxidation_state_of.jpg" alt="What is the oxidation state of" align="left" /><p>In chemistry, the oxidation state is an indicator of the degree of oxidation of an atom in a chemical compound. The formal oxidation state is the hypothetical charge that an atom would have if all bonds to atoms of different elements were 100 percent ionic. Oxidation states are represented by Arabic numerals and can be positive, negative, or zero. The increase in oxidation state of an atom is known as an oxidation; a decrease in oxidation state is known as a reduction. Such reactions involve the formal transfer of electrons, a net gain in electrons being a reduction and a net loss of electrons being an oxidation. In this manner, the concept of oxidation state helps scientists understand oxidation-reduction (redox) chemical reactions. History The concept of oxidation state in its current meaning was introduced by W. M. Latimer in 1938. Oxidation itself was first studied by Antoine Lavoisier, who held the belief that oxidation was literally the results of reactions of the elements with oxygen and that the common bond in any salt was based on oxygen. Official definition and rules Here is the definition of the oxidation state, according to the International Union of Pure and Applied Chemistry (IUPAC): Oxidation state: A measure of the degree of oxidation of an atom in a substance. It is defined as the charge an atom might be imagined to have when electrons are counted according to an agreed-upon set of rules: (l) the oxidation state of a free element (uncombined element) is zero; (2) for a simple (monatomic) ion, the oxidation state is equal to the net charge on the ion; (3) hydrogen has an oxidation state of 1 and oxygen has an oxidation state of -2 when they are present in most compounds. (Exceptions to this are that hydrogen has an oxidation state of -1 in hydrides of active metals, e.g. LiH, and oxygen has an oxidation state of -1 in peroxides, e.g. H2O2; (4) the algebraic sum of oxidation states of all atoms in a neutral molecule must be zero, while in ions the algebraic sum of the oxidation states of the constituent atoms must be equal to the charge on the ion. For example, the oxidation states of sulfur in H2S, S8 (elementary sulfur), SO2, SO3, and H2SO4 are, respectively: -2, 0, +4, +6 and +6. The higher the oxidation state of a given atom, the greater is its degree of oxidation; the lower the oxidation state, the greater is its degree of reduction. Calculation of formal oxidation states There are two common ways of computing the oxidation state of an atom in a compound. The first one is used for molecules when one has a Lewis structure, as is often the case for organic molecules, while the second one is used for simple compounds (molecular or not) and does not require a Lewis structure. It should be remembered that the oxidation state of an atom does not represent the "real" charge on that atom: this is particularly true of high oxidation states, where the ionization energy required to produce a multiply positive ion are far greater than the energies available in chemical reactions. The assignment of electrons between atoms in calculating an oxidation state is purely a formalism, albeit a useful one for the understanding of many chemical reactions.</p>]]></content:encoded> <category><![CDATA[Zinc Oxide]]></category> <link>https://rawgoods.org/ZincOxide/oxidation-state-of-sulfur</link> <guid isPermaLink="true">https://rawgoods.org/ZincOxide/oxidation-state-of-sulfur</guid> <pubDate>Wed, 16 Jul 2025 14:51:00 +0000</pubDate> </item> <item> <title>Black Oxide Golf Club Refinishing</title> <description>Review: Black Oxide Service (BOSgolf.com) BOS is well-known in the golf industry–particularly in the putter world–for their outstanding finishing of some of the best-looking clubs in the game. BOS is responsible for the ...</description> <content:encoded><![CDATA[<img src="/img/chicago_style_golf_custom_shop.jpg" alt="DSC_3665" align="left" /><p>Review: Black Oxide Service (BOSgolf.com) BOS is well-known in the golf industry–particularly in the putter world–for their outstanding finishing of some of the best-looking clubs in the game. BOS is responsible for the finish of Scotty Cameron’s original Gun Blue Classics line of putters, the line that put Cameron on the map. BOS also has worked on Scratch clubs recently, providing some special finishes for their wedges. After tinkering around with the idea of refinishing/reworking clubs myself, I got in touch with BOS to clean up some Cameron putters for me. Consistent readers will know that I restored a Cameron TeI3 putter (see ) but was unhappy with the cold-blue finish, even after several tries to get it right. Although I learned a lot from the restoration process, I decided I wanted something unique, so I sent my putter to BOS for their “Aquamarine” finish, a green-blue hued finish. Coincidentally, I was able to pick up a Cameron Newport Oil Can putter for a good price. Although the putter did not need much work to repair dings or dents, its finished had been stripped because–according to the prior owner–“it had been left in a garage and was all rusty, so some stuff was put on it to take the rust off.” Below is what the Newport Oil Can looked like before sending to BOS. Look at the post on restoring the TeI3 (here: )for photos as to what that putter looked like before.</p>]]></content:encoded> <category><![CDATA[Black Oxide]]></category> <link>https://rawgoods.org/BlackOxide/black-oxide-golf-club-refinishing</link> <guid isPermaLink="true">https://rawgoods.org/BlackOxide/black-oxide-golf-club-refinishing</guid> <pubDate>Wed, 09 Jul 2025 14:51:00 +0000</pubDate> </item> <item> <title>Zinc oxide Lip Sunscreen</title> <description>With the 4th of July coming up soon, plenty of you are probably going to be spending time in the sun. Instead of buying bottle after bottle of sunscreen, make your own. WonderHowTo has a brief guide on how to make your own ...</description> <content:encoded><![CDATA[<img src="/img/zinclipsresize956515.jpg" alt="Liberally slather your lips" align="left" /><p>With the 4th of July coming up soon, plenty of you are probably going to be spending time in the sun. Instead of buying bottle after bottle of sunscreen, make your own. WonderHowTo has a brief guide on how to make your own sunscreen. The key ingredient here is the zinc oxide. In sun screen, zinc oxide is used to scatter light waves in the UV-A spectrum. As Physics.org explains: Sunscreens help to filter out UV radiation using a combination of two main types of active ingredients. Inorganic particles, such as titanium dioxide or zinc oxide, form a physical barrier, reflecting or scattering UV waves. Organic components meanwhile absorb UV rays and release their energy as heat.</p>]]></content:encoded> <category><![CDATA[Zinc Oxide]]></category> <link>https://rawgoods.org/ZincOxide/zinc-oxide-lip-sunscreen</link> <guid isPermaLink="true">https://rawgoods.org/ZincOxide/zinc-oxide-lip-sunscreen</guid> <pubDate>Wed, 02 Jul 2025 14:49:00 +0000</pubDate> </item> <item> <title>Nitrous oxide emissions</title> <description>Nitrous oxide emissions are produced by both natural and human sources. Important natural sources include soils under natural vegetation and the oceans. Natural sources create 62% of total emissions. Important human sources come ...</description> <content:encoded><![CDATA[<img src="/img/animals_free_full_text_2004_methane.png" alt="2004 Methane and Nitrous Oxide" align="left" /><p>Nitrous oxide emissions are produced by both natural and human sources. Important natural sources include soils under natural vegetation and the oceans. Natural sources create 62% of total emissions. Important human sources come from agriculture, fossil fuel combustion and industrial processes. Human-related sources are responsible for 38% of total emissions. Human activities have added large quantities of reactive nitrogen compounds to the environment and have virtually doubled the mainly natural inputs existing at the beginning of the industrial age. However, a large portion of this is lost and cascades through the Earth's soils, water ways and atmosphere. This has increased nitrous oxide emissions by about 40-50% over pre-industrial levels. Before the Industrial Revolution, the atmospheric concentration of nitrous oxide was maintained in a safe range of levels by natural sinks. But for a long time now human activities have been creating emissions much more rapidly than the Earth can remove them. Nitrous oxide levels are now higher today than at any other time during the last 800, 000 years. Human Sources Since the Industrial Revolution, human sources of nitrous oxide emissions have been growing. Activities such as agriculture, fossil fuel combustion and industrial processes are the primary cause of the increased nitrous oxide concentrations in the atmosphere. Together these sources are responsible for 77% of all human nitrous oxide emissions. Other sources include biomass burning (10%), atmospheric deposition (9%) and human sewage (3%). Figure 1: Source: IPCC Fourth Assessment Report: Climate Change 2007, Intergovernmental Panel on Climate Change. Agriculture The largest human source of nitrous oxide emissions is from agriculture which accounts for 67%. Agriculture creates both direct and indirect emissions. Direct emissions come from fertilized agricultural soils and livestock manure (42%). While indirect emissions come from runoff and leaching of fertilizers (25%). Agriculture creates 4.5 million tonnes of nitrous oxide annually. Because of the inefficiencies of nitrogen uptake by plants and animals, only about 10 to 15% of reactive nitrogen ever enters a human mouth as food. The rest is lost to the environment. Industrialized farming practices have worsened this loss and the result has been increased emissions. Because of this, agriculture is the most important human source of nitrous oxide emissions.</p>]]></content:encoded> <category><![CDATA[Nitrous Oxide]]></category> <link>https://rawgoods.org/NitrousOxide/nitrous-oxide-emissions</link> <guid isPermaLink="true">https://rawgoods.org/NitrousOxide/nitrous-oxide-emissions</guid> <pubDate>Wed, 25 Jun 2025 14:48:00 +0000</pubDate> </item> <item> <title>Examples of oxidizing agents</title> <description>An oxidizing agent is a reactant that removes electrons from other reactants during a redox reaction. We can also say that any chemical substance that has a tendency to accept electrons and thereby undergoing reduction themselves ...</description> <content:encoded><![CDATA[<img src="/img/chemistry_100_01_marilynduerst_flashcards_final.jpg" alt="Image cardimage_1652317_ for" align="left" /><p>An oxidizing agent is a reactant that removes electrons from other reactants during a redox reaction. We can also say that any chemical substance that has a tendency to accept electrons and thereby undergoing reduction themselves is known as an oxidising agent. Oxygen is the prime example of an oxidizing agent. Structure of oxidizing agent Use of Oxidizing Agent in Textile Wet Processing: 1) Desizing: Desizing is the process or removing the starch or size the covering the warp yarn using enzyme. Oxidizing agent, or other chemicals . Lastly, is oxidative desizing method. This method using hydrogen peroxide and persulphate, that will degrade the starch with serious attack. 2) Oxidized Starch: The starch derivatives made by oxidative processes find limited use in textile sizing because they are more expensive to produce as compared to the other starch modifications which can give essentially similar properties to high solids/low viscosity cooks [5]. Instead of using acid to reduce the starch chain length, sodium hypochlorite, an oxidizing agent, is employed. 3) Bleaching: Cotton being a vegetable fibre will be bleached using an oxidizing agent. Bleaching is a process of destruction of natural coloring matter to produce white fabric band be accomplished with a minimum damage to the cloth being bleached. Cotton being a vegetable fiber will be bleached using an oxidizing agent, such as dilute sodium hydrochloride or dilute hydrogen peroxide. If the fabric is to be dyed a deep shade, then lower levels of bleaching are acceptable.</p>]]></content:encoded> <category><![CDATA[Aluminum Oxide]]></category> <link>https://rawgoods.org/AluminumOxide/examples-of-oxidizing-agents</link> <guid isPermaLink="true">https://rawgoods.org/AluminumOxide/examples-of-oxidizing-agents</guid> <pubDate>Wed, 18 Jun 2025 14:43:00 +0000</pubDate> </item> <item> <title>Magnesium oxide Empirical formula</title> <description>Report your average empirical formula for magnesium oxide and compare it to the. Calculation of the Mass of Oxygen In the Magnesium Oxide: m (O) = m (MgxOy. The Synthesis and Determination of Empirical Formula for Magnesium Oxide ...</description> <content:encoded><![CDATA[<img src="/img/spiderman_regenerative.jpg" alt="Spiderman, Regenerative" align="left" /><p>Report your average empirical formula for magnesium oxide and compare it to the. Calculation of the Mass of Oxygen In the Magnesium Oxide: m (O) = m (MgxOy. The Synthesis and Determination of Empirical Formula for Magnesium Oxide Aim: To determine the empirical formula for magnesium oxide. The objective of this lab is to experimentally determine the empirical formula of Magnesium Oxide. by Narendran in Science and Research Lab #3: The Empirical Formula of a Compound Revised 8/19/2009 1. Empirical formula of magnesium oxide experiment lab report Empirical formula of magnesium oxide lab answers Lab 2 - Distillation and Preparative GC Author: Michael Drake. Lab Six: Empirical Formula Determination of Magnesium Oxide Introduction: Carbon dioxide (CO2. Best Answer: This appears rather muddled as I'm afriad the results don't seem to make sense.</p>]]></content:encoded> <category><![CDATA[Magnesium Oxide]]></category> <link>https://rawgoods.org/MagnesiumOxide/magnesium-oxide-empirical-formula</link> <guid isPermaLink="true">https://rawgoods.org/MagnesiumOxide/magnesium-oxide-empirical-formula</guid> <pubDate>Wed, 11 Jun 2025 14:43:00 +0000</pubDate> </item> </channel></rss>If you would like to create a banner that links to this page (i.e. this validation result), do the following:
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