29
15 ml
2.5 ml
A milliliter of water, by definition, weighs one milligram. That is its mass. When 150 mL of water freezes, the volume of the water will change, but the mass will remain the same. So 150 mL of water will weight 150 mg, no matter what state of matter it's in.
This cannot be sensibly answered. A milliliter (mL or ml) is a measure of volume, mg is a measure of weight or mass.
To administer 2 g in 150 ml over a specific time period, you need to find the concentration in mg per ml. First, convert 2 g to mg (2000 mg). Then, divide the total amount (2000 mg) by the total volume (150 ml) to find the concentration: 2000 mg / 150 ml = 13.33 mg/ml. This is the concentration you need to administer per minute.
1,50
In a 2 ml injection of diazepam 10 mg, there are 10 mg in 2 ml, which means there are 5 mg in 1 ml. Therefore, in 2.5 ml, there would be 12.5 mg of diazepam.
The three month Depo Provera shot has a concentration of 150 mg/1 ml. Each injection is 1 ml.
29
1050
The concentration of Celestone injection varies depending on the formulation. If we assume a concentration of 5 mg/mL, then 9 mg of Celestone would be equivalent to 1.8 mL (9 mg / 5 mg/mL). It is important to always confirm the concentration with the specific product label or package insert.
It depends on the antibiotic concentration... if it's 10 mg/ml, then you have 20 mg, because 1 cc = 1 ml. You should base your answer on the concentration (in mg/ml)
This cannot be answered directly since liter is a measurement of volume and gram is a measurement of weight or mass. However if water at 4 deg C is the reference of what is being measured, then 1 gram = 1 milliliter, therefore 125 mg = .125 ml.
This is not a valid conversion; milligrams (mg) and grams (g) are measures of weight or mass and mL (milliliters) is a measure of volume.
This is not a valid conversion; milligrams (mg) and grams (g) are measures of weight or mass while milliliters (mL or ml) measure volume.
To calculate the amount of dextrose in the IV solution, you first convert 5% w/v to mg/mL. Next, you multiply the concentration by the volume of the IV solution to find the total amount of dextrose in it. For a 475 mL IV solution with 5% w/v dextrose, you would have 475 mL * 5 mg/mL = 2375 mg of dextrose.