# ideal gas constant
Words or phrase for the review: «ideal gas constant»
Words or phrase for the review: «ideal gas constant»
Ex No. 12.11 (Page 538) A solu on is prepared by dissolving 35.0 g of hemoglobin (Hb) in enough water to - brainly.com » Find an answer to your question Ex No. 12.11 (Page 538) A solu on is prepared by dissolving 35.0 g of hemoglobin (Hb) in enough water to make up 1 L in volume. … Brainly.com
Oxygen carrying capacity of whole blood » The most important determinants of total blood oxygen content are the effective haemoglobin concentration and oxygen saturation. Solubility plays little role -only about 1-2% of the total oxygen content is dissolved (though this increases with extreme hypothermia). The remaining 98% are bound to haemoglobin. Derangedphysiology.com
U-world: Gen-Chem: Thermo chemistry#2 Flashcards » Study with Quizlet and memorize flashcards containing terms like The diagram below shows the activity of cerium oxides that have been proposed as catalytic materials to reduce emissions of nitrogen monoxide, carbon monoxide, soot, and hydrocarbons during the combustion of diesel fuel. Based on the diagram, if the reactions are irreversible, which of the following does NOT illustrate a function of the cerium oxide catalyst?, The reversible reaction Hb+4O2⇄Hb(O2)4 exists in blood between hemoglobin (Hb) and oxyhemoglobin Hb(O2)4. According to the law of mass action, doubling the O2 concentration would:, Reaction quotient and more. Quizlet.com
Each molecule of hemoglobin combines with four molecules of O2. If 1.00g hemoglobin combines with 1.60mL O2 at 37oC and 99.0 kPa, what is the molar mass of hemoglobin? | Socratic » "65,000 g/mol" The idea here is that you need to use the ideal gas law equation to determine how many moles of oxygen gas you have in that sample. This will allow you to determine how many moles of hemoglobin you have in that "1.00-g" sample. So, the ideal gas law equation looks like this color(blue)(PV = nRT)" ", where P - the pressure of the gas V - the volume it occupies n - the number of moles of gas R - the universal gas constant, usually given as 0.0821("atm" * "L")/("mol" * "K") T - the temperature of the gas, expressed in Kelvin In order to be able to use this equation, you need to have the pressure, volume, and temperature of the sample expressed in the units used for the universal gas constant, R. This means that you will have to convert the volume from mililiters to liters, the temperature from degrees Celsius to Kelvin, and the pressure from kilopascals to Pascals. Rearrange the ideal gas law equation and solve for n, the number of moles of oxygen PV = nRT implies n = (PV)/(RT) n = (99.0/101.325co Socratic.org
Gas Laws and Clinical Application » The gas laws are a group of physical laws modeling the behavior of gases developed from experimental observations from the 17th century onwards. While many of these laws apply to ‘ideal’ gases in closed systems at standard temperature and pressure (STP), their principles can still be useful in understanding and altering a significant number of physicochemical processes of the body as well as the mechanism of action of drugs (e.g., inhaled anesthetics).[1] Ncbi.nlm.nih.gov
One molecule of hemoglobin will combine with four molecules of oxygen. If 1.0 g of hemoglobin combines with - brainly.com » One molecule of hemoglobin will combine with four molecules of oxygen. If 1.0 g of hemoglobin combines with 1. Get the answers you need, now! Brainly.com
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