criteria prior to initiation of the Potassium‚ Magnesium‚ or Phosphorus protocols: o SCr < 2 mg/dL o Weight > 40 kg • The electrolyte replacement protocols‚ Calcium chloride (Level I areas only) or Calcium gluconate (all levels of care)‚ Magnesium sulfate‚ Potassium chloride‚ or Potassium Phosphate‚ may be ordered individually or in combination. POTASSIUM REPLACEMENT PROTOCOL – INTRAVENOUS • Recommended rate of infusion is 10 mEq/h • Maximum rate of intravenous replacement is 20 mEq/h with continuous
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the body are closely linked4. The polar nature of water allows electrolytes such as sodium ions to dissolve. The level of sodium within the body affects the amount of water in and around body cells. The body gets sodium from food and drink‚ and loses it in sweat and urine. Sodium plays an important role in water balance and is required to draw water through plasma membrane of body cells. This is because sodium and water move simultaneously‚ maintaining equilibrium of water and electrolytes across
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point. Muscle Cell stimulated by Acetylcholine: A motor neuron releases Acetylcholine which diffuses toward the muscle cell across the neuromuscular junction. As the Acetylcholine binds to a receptor on the muscle cell membrane‚ it signals the sodium leak channel to open. This causes a localized depolarization to occur. Soon after this causes the Na+ voltage gated channels to open spreading a wave of depolarization across the membrane and cell.le Cell at rest: As the muscle cell is at rest
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failure. She is awake‚ alert‚ oriented‚ and complaining of severe back pain‚ nausea and vomiting and abdominal cramps. Her vital signs are blood pressure 100/70 mm Hg‚ pulse 110‚ respirations 30‚ and oral temperature 100.4°F (38°C). Her electrolytes are sodium 120 mEq/L‚ potassium 5.2 mEq/L; her urinary output for the first 8 hours is 50 ml. The client is displaying signs of which electrolyte imbalance? A. Hyponatremia B. Hyperkalemia C. Hyperphosphatemia D. Hypercalcemia Assessing the laboratory
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is: Ccal=qcal∆T qrxn=nLR x ∆H The students are the ones responsible in preparing their own solution. Inside the test tube the students put the reagents used for calibration to determine the heat capacity of the calorimeter. These reagents are: sodium hydroxide and HCl. Then the students measure the temperature with 15 seconds intervals. The students made two trials and determine the change in temperature which is needed for the calculations. After the calibration‚ the students
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The Nervous System: Membrane Potential 1. Record the intracellular and extracellular concentrations of the following ions (mM/L): | Intracellular | Extracellular | Sodium (Na+) | 15 | 150 | Potassium (K+) | 150 | 5 | Chloride (Cl–) | 10 | 125 | 2. Excitable cells‚ like neurons‚ are more permeable to K+ than to Na+. 3. How would the following alterations affect the membrane permeability to K+? Use arrows to indicate the change in permeability. a. An increase in the number of passive
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FOUNDATION IN SCIENCE INTRODUCTION TO PRACTICAL ORGANIC CHEMISTRY – MAKING AND PURIFYING ORGANIC COMPOUNDS Stage 1 – Deciding how much reagent to use Most organic reactions do not go to completion; most reach an equilibrium position with significant quantities of reactants still remaining. In addition‚ separating the desired product from the rest of the reaction mixture‚ and then purifying it‚ will result in the loss of more of the product. The amount of product obtained expressed as a percentage
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extracellular Na+ did not significantly alter the membrane potential in the resting neuron? Your answer: There are less sodium leak channels than potassium leak channels‚ and more of the potassium channels are open. 4. Discuss the relative permeability of the membrane to Na+ and K+ in a resting neuron. Your answer: Membrane permeability to sodium is very low because there are only a few sodium leak channels. The membrane is more permeable to potassium because of the higher number of potassium leak channels
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Investigation of a Hydrated Salt Table of Calculations: ³ Unknown #2 Weight of hydrate before heating .9989g Weight hydrate after heating .6534g Weight of water .3455g Mole of water in hydrate .0192mol Mole of anhydrous salt: CuSO4 .004094mol CuCl2 .004859mol CoCl2 .005033mol Mole ratio of water to each of the anhydrous salts: CuSO4 4.69
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The negative electrode should be the object that is to be electroplated The positive electrode should be the metal that you want to coat the object with The electrolyte should be a solution of the coating metal‚ such as its metal nitrate or sulfate Here are two examples. Electroplating with silver The object to be plated‚ such as a metal spoon‚ is connected to the negative terminal of the power supply. A piece of silver is connected to the positive terminal. The electrolyte is silver nitrate
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