· Then mass flowing per sec = volume flowing per sec m3/s volume per kg m3/kg A1C1 kg = at inlet v1 s A2 C 2 kg = at outlet v2 s A1C1 A2 C 2 i.e. m= = (7.5) v1 v2 14. FLOW PROCESS J2006/7/14 Example 7.3 A fluid flowing along a pipeline undergoes a throttling process from 10 bar to 1 bar in passing through a partially open valve.
1 kilogram/second is equal to 60 kg/min, or 2. lb/s. Note that rounding errors may occur, so always check the results. Use this page to learn how to convert between kilograms/minute
· Online conversion from Kilogram Per Second (kg/s) to Kilogram Per Minute (kg/min), Metric. Flow Rate By Mass Converter.
These Dopamine drip practice problems were designed to help you better understand how to calculate an IV flow rate based on a patient’s weight, the ordered dose, and the amount of solution supplied. You will be required to solve problems that require you to understand mcg/kg/min Before taking the quiz, don’t forget to watch the lecture on Dopamine IV drip calculations.
Calculate the total glucose infusion rate from up to three concentrations of dextrose. This calculation is a simple conversion of units (into mg/kg/min) where the dextrose concentration is expressed as a whole number, e.g. 5 or 10. A GIR of 5-8 mg/kg/min is typical. Infants who are not feeding should not be allowed a rate less than 5 mg/kg/min
· Online conversion from Kilogram Per Minute (kg/min) to Kilogram Per Second (kg/s), Metric. Flow Rate By Mass Converter.
· Stones to Kilograms (st to kg) kg to stones (Swap Units) Format Accuracy Note Fractional results are rounded to the nearest 1/64. For a more accurate answer please select 'decimal' from the options above the result. Note You can increase or decrease the accuracy of this answer by selecting the number of significant figures required from the
· IV Infusion Rate (cc/hr) =. dose (mcg/kg/min) x weight (kg) x 60 min/hr. concentration (mg/cc) x 1000 mcg/mg. DISCLAIMER All calculations must be confirmed before use. The authors make no claims of the accuracy of the information contained herein and these suggested doses are not a substitute for clinical judgement.
· Kg to Grams How to convert Grams to Kilograms. 1 gram (g) is equal to 0.001 kilograms (kg). 1 g = (1/1000) kg = 0.001 kg. The mass m in kilograms (kg) is equal to the mass m in grams (g) divided by 1000 . m (kg) = m (g) / 1000. Example. Convert 5 g to kilograms
How to convert centipoises to kilograms per meter-second [cP to kg/m/s] . η kg/m/s = 0.001 × η cP. How many kilograms per meter-second in a centipoise If η cP = 1 then η kg/m/s = 0.001 × 1 = 0.001 kg/m/s. How many kilograms per meter-second in 48 centipoises If η cP = 48 then η kg/m/s = 0.001 × 48 = 0.048 kg/m/s. Note Centipoise is a centimeter-gram-second (CGS) unit of dynamic
other units/kg/hr Enter the desired dose in specified units (mcg, units, milliunits, etc) when the drip is at 1 cc/hr. Standard or Maximum Concentrations Fixed-Concentration Calculators mcg/kg/min Enter the amount of drug and the total volume. mg/kg/hr Enter the amount of drug and the total volume.
· -Infuse at 0.5 mg/kg/min for the first 10 minutes of the infusion.-If tolerated, may increase infusion rate by 0.8 mg/kg/min every 20 minutes.-Maximum infusion rate is 6 mg/kg/min. Carimune(R) 400 to 800 mg/kg, IV, every 3 to 4 weeks-Initial infusion rate is 0.5 mg/kg/min for 30 minutes.
1 kilogram/minute [kg/min] = 0. kilogram/second [kg/s] kilogram/minute to kilogram/second , kilogram/second to kilogram/minute 1 kilogram/hour [kg/h] = 0. kilogram/second [kg/s]
kg/min↔mg/s 1 kg/min = 16666.666667 mg/s kg/min↔ton/s 1 ton/s = 60000 kg/min kg/min↔ton/min 1 ton/min = 1000 kg/min kg/min↔ton/h 1 ton/h = 16. kg/min kg/min↔ton/d 1 kg/min = 1.44 ton/d kg/min↔lb/d 1 kg/min = 3174.656575 lb/d kg/min↔lb/s 1 lb/s = 27. kg/min kg/min↔lb/min 1 kg/min = 2.204623 lb/min
· Ways to Express VO 2 Absolute- Liters per minute (L•min-1) Used to convert consumption to a rate of energy expenditure Relative- ml per kg body weight per min (ml•kg-1•min-1) Used to compare VO 2 among varying body sizes Gross- Total consumption rate under any circumstances, either in absolute or relative Net- Consumption rate above resting
» Kilogram/minute Conversions kg/min↔kg/s 1 kg/s = 60 kg/min kg/min↔kg/h 1 kg/min = 60 kg/h kg/min↔kg/d 1 kg/min = 1440 kg/d
· VO2 max = 41.77 ml / kg / min. VO2 based on your race pace = 37.69 ml / kg / min. what is equal 90.24 % of V02 max. VO2 norms. The average untrained healthy males reach VO2 max of approximately 35-40 ml/kg/min. The average untrained healthy female scores a VO2 max of approximately 27–31 ml/kg/min. These values can improve with training and
· • The patient’s weight is 78 kg (this information is provided in the case notes which have not been shown above). Step 1 Identify the rate of infusion in mg/kg/h and convert this to a rate in mg/h by multiplying it by the patient’s weight. Rate (mg/h) = Rate (mg/kg/h) x Patient’s weight (kg) = 0.4 mg/kg/h x 78 kg = 31.2 mg/h
How to convert pascal-seconds to kilograms per meter-second [Pa·s to kg/m/s] . η kg/m/s = 1 × η Pa·s. How many kilograms per meter-second in a pascal-second If η Pa·s = 1 then η kg/m/s = 1 × 1 = 1 kg/m/s. How many kilograms per meter-second in 25 pascal-seconds If η Pa·s = 25 then η kg/m/s = 1 × 25 = 25 kg/m/s. Note Pascal-second is a metric unit of dynamic viscosity.
· First, identify the doctor’s order. Doctor’s order = min 5 kg mcg The doctor’s order is given as 5mcg/kg/min. This can be written as min 5 kg mcg. Second, identify the dose on hand (DOH). Dose on hand = mL mg 250 400 Supplied is a 250mL bag of NS that
· Competitive College-aged Males 65-85 mL/kg/min Highest measured VO2max ~95 mL/kg/min. Why does aerobic exercise training increase VO2max? Let’s focus on the Fick Equation VO2 = HR x SV x a-vO2diff Factors to consider are how does training affect HR
· Patients at risk for developing renal dysfunction infuse at not to exceed 3 mg/kg/min Gammagard S/D. Infuse 5% soln at 0.5 mL/kg/hr If well tolerated (at each step) & no hx of ADRs to IGIV & no significant risk factors for renal dysfunction or thrombotic complications may gradually incr to not to exceed 4 mL/kg/hr, THEN 10% soln starting at
· min) by patient’s weight (in kg) Multiply this number by 60 Divide this number by the drug dose in the syringe (must be in mcg) Multiply this by total volume in syringe This calculated number will be the rate required in mls/hr to provide an infusion at a rate of
The minimum time for the test is 6 minutes and the maximum is 12 minutes. Allow the subject to warm‐up on the cycle ergometer for 2 to 3 minutes with a resistance of 0 kg and an RPM of 50. Start the first workload (3 min @ 150 kgm/min, 0.5 kg, 50 RPM) Record HR at 2 00 min. Measure BP from 2 00 to 3 00 min. Record RPE at 2 45 min.
· At low rates of infusion (0.5-2 mcg/kg/min) dopamine causes vasodilation that is presumed to be due to a specific agonist action on dopamine receptors in the renal, mesenteric, coronary, and intracerebral vascular beds. The vasodilation in these vascular beds is accompanied by increased glomerular filtration rate, renal blood flow, sodium excretion, and urine flow.
1 kg/min = 0. kg/s 1 kg/s = 60 kg/min. Example convert 15 kg/min to kg/s 15 kg/min = 15 × 0. kg/s = 0.25 kg/s. Convert Kilogram/minute to Other FlowMass Units
· “X” (Ordered amount of drug) x 65 pt’s weight) x 60(min/hr) = 15 mL/hour 10,000 mg/mL (Drug concentration) Solve for “X” 15 *10, 000 = 38.5 mcg/kg/min 60 * 65 9. You have an order to run dopamine at 15 mcg/kg/min. Your IV bag has 500 mg dopamine in 500 mL. Your patient weighs 50 kg. What rate will you set for your IV?
· -Infuse at 0.5 mg/kg/min for the first 10 minutes of the infusion.-If tolerated, may increase infusion rate by 0.8 mg/kg/min every 20 minutes.-Maximum infusion rate is 6 mg/kg/min. Carimune(R) 400 to 800 mg/kg, IV, every 3 to 4 weeks-Initial infusion rate is 0.5 mg/kg/min for 30 minutes.
· Most patients require 100 to 150 mcg/kg/min (6 to 9 mg/kg/h) for 3 to 5 minutes or a slow injection of 0.5 mg/kg over 3 to 5 minutes followed immediately by a maintenance infusion. MAINTENANCE OF MAC SEDATION Adults less than 55 years of age and classified as ASA-PS I OR II -Infusion method 100 to 150 mcg/kg/min (6 mg/kg/h to 9 mg/kg/h) over
This on the web one-way conversion tool converts flow units from gallons US per minute ( gal/min ) into kilograms per secondGasoline ( kg/sec ) instantly online. 1 gallon US per minute ( gal/min ) = 0.047 kilograms per secondGasoline ( kg/sec ). How many kilograms per secondGasoline ( kg/sec ) are in 1 gallon US per minute ( 1 gal/min )?
· VO 2 (ml/kg/min) = (0.1 x speed) (1.8 x speed x grade) 3.5 . Speed is calculated in m/min. Grade = fraction of the elevation / distance. The numbers 0.1 and 1.8 are constants that refer to the following 0.1 = oxygen cost per meter of moving each kilogram (kg
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