Get Answer: Basic Calculation Primary Question Guide
This question tests key academic concepts commonly covered in coursework.
What This Question Is About
This question relates to basic calculation primary and requires a structured academic response.
How to Approach This Question
Start by identifying the main issue, then apply relevant academic frameworks.
Key Explanation
This topic involves basic calculation primary. A strong answer should include explanation, application, and examples.
Original Question
BASIC CALCULATION OF PRIMARY INFUSIONS showing your work as to how you got the answer 1. The order reads 1000 mL of 5% dextrose in water at 125 mL/hr. You have available 20 drop factor tubing. Calculate the drops per minute. 2. The order is for 1000 mL of 5% dextrose and 0.45% sodium chloride at 150 mL/hr. You have available 15 drop factor tubing. Calculate the drops per minute. 3. The order is for 250 mL (1 unit) of packed cells over 2 hours. Remember, blood tubing is always 10 drop factor. Calculate the drops per minute. 4. The order is for 45 mL/hr of 5% dextrose and 0.45% sodium chloride solution on an 8-month-old baby. Calculate the drops per minute if you have to use a controller that is drops per minute. (Remember, use microdrop tubing.) What else must you consider when administering this solution to an infant? 5. The order reads 3000 mL of a multiple-electrolyte fluid over 24 hours. You have available 20 drop factor tubing. Calculate the drops per minute. Intermittent I.V. Drug Administration 6. A fluid challenge of 250 mL of 0.9% sodium chloride over 45 minutes is ordered. You have 20 drop factor tubing available. Calculate the drops per minute to accurately deliver the 250 mL over 45 minutes. 7. Administer 50 mg of vinblastine sulfate diluted in 50 mL of 0.9% sodium chloride over 15 minutes. You have available a 15 macrodrop infusion set. 8. Administer 500 mg of acyclovir in 100 mL of 5% dextrose in water over 1 hour. You have available a macrodrop 20 gtt infusion set. 9. Administer trimethoprim-sulfamethoxazole 400 mg in 125 mL of dextrose in water over 90 minutes. You have available a microdrop set and a macrodrip 15 gtt infusion set. 10. At 12 noon you discover that an infusion set that was to deliver 100 mL per hour from 7 a.m. to 5 p.m. has 400 mL left in the infusion bag. Recalculate the infusion using a 10 drop macrodrop infusion set.
******CLICK ORDER NOW BELOW AND OUR WRITERS WILL WRITE AN ANSWER TO THIS ASSIGNMENT OR ANY OTHER ASSIGNMENT, DISCUSSION, ESSAY, HOMEWORK OR QUESTION YOU MAY HAVE. OUR PAPERS ARE PLAGIARISM FREE*******."
