🌟 Welcome to our latest video: "Two Dilution Calculation Questions Solved: Top Tips & AI Solutions Included"! 🌟 We're thrilled to share this informative journey through the world of dilution calculations in pharmacy. Whether you're a student, educator, or professional, this video is packed with valuable insights and practical tips to enhance your understanding and skills. 🔍 What You'll Learn: - The alligation method for accurate concentration adjustments. - Converting and preparing weight by volume solutions with ease. - Leveraging AI with Bevinzey for efficient and precise calculations. 💡 We'd Love to Hear from You! Your feedback is crucial to us. After watching, please share your thoughts, questions, or any topics you'd like us to cover in future videos. Let's create a vibrant learning community together! 👍 Support Our Channel: If you found this video helpful, please like, share, and subscribe for more content like this. Your support helps us create more educational videos for you. Thank you for watching, and happy learning!
I am about to take my NAPLEX soon and I just want to thank you so much for providing us with your easy explanations. I feel much more confident now in doing these calculations because of you!
◦Please doctor, can you solve this for us: The clinical pharmacist in the Pediatric ICU is asked to determine what rate to run a child's IV at. The IV contains 9 mL of 39.2% potassium acetate in normal saline to prepare a 1 L bag. The prescriber wants the child to receive 2.5 mEq/hr. (MW of K = 39; MW of acetate = 59). What rate (in mL/hr) would provide the desired mEq/hr of potassium acetate? (Answer must be numeric; no units or commas; round the final answer to the nearest WHOLE number.)
Hello @boyam10. Thank you for watching and for your comment. Here is a link (jo.my/ivinfusionmeq) to the solution. The video solution will be published shortly.
🌟 Welcome to our latest video: "Two Dilution Calculation Questions Solved: Top Tips & AI Solutions Included"! 🌟
We're thrilled to share this informative journey through the world of dilution calculations in pharmacy. Whether you're a student, educator, or professional, this video is packed with valuable insights and practical tips to enhance your understanding and skills.
🔍 What You'll Learn:
- The alligation method for accurate concentration adjustments.
- Converting and preparing weight by volume solutions with ease.
- Leveraging AI with Bevinzey for efficient and precise calculations.
💡 We'd Love to Hear from You!
Your feedback is crucial to us. After watching, please share your thoughts, questions, or any topics you'd like us to cover in future videos. Let's create a vibrant learning community together!
👍 Support Our Channel:
If you found this video helpful, please like, share, and subscribe for more content like this. Your support helps us create more educational videos for you.
Thank you for watching, and happy learning!
I am about to take my NAPLEX soon and I just want to thank you so much for providing us with your easy explanations. I feel much more confident now in doing these calculations because of you!
Nice move.
Thank you @philipraphael3676 for watching. Appreciate the kind comment.
◦Please doctor, can you solve this for us: The clinical pharmacist in the Pediatric ICU is asked to determine what rate to run a child's IV at. The IV contains 9 mL of 39.2% potassium acetate in normal saline to prepare a 1 L bag. The prescriber wants the child to receive 2.5 mEq/hr. (MW of K = 39; MW of acetate = 59). What rate (in mL/hr) would provide the desired mEq/hr of potassium acetate? (Answer must be numeric; no units or commas; round the final answer to the nearest WHOLE number.)
Hello @boyam10. Thank you for watching and for your comment. Here is a link (jo.my/ivinfusionmeq) to the solution. The video solution will be published shortly.