Does not convert; one is a measure of weight and the other is a measure of volume.
This cannot be sensibly answered. A milliliter (mL or ml) is a measure of volume, mg is a measure of weight or mass.
To determine how many milligrams to administer, we first need to identify the concentration. The label indicates that 5 ml is needed to dissolve 1 g (1000 mg). Therefore, if you have a concentration of 0.5 mg in 2 ml, you can calculate the total dosage needed. If you need to give 700 mg, you would calculate the volume based on the concentration, but it seems you need to clarify the exact formulation or solution concentration to proceed correctly.
You have to give 3 times 5 mg = 15 mg therefore you have to give 3 times 2 ml = 6 ml (15 mg = 6 ml of whatever that bottle contains).
0.03
Does not convert; milligrams (mg) and grams are measures of weight or mass and mL (milliliters) is a measure of volume.
You should calculate this way : 75 mg = 1 ml 45 mg = ? ml ( 45 mg x 1ml ) / 75 mg = 0,6 ml
it depends on the concentration of the medication... in mg/ml... you can convert mg/ml to mg/cc as 1 ml = 1 cc. If your medication is at a concentration of 10 mg/ml, then you have 10 mg in 1 cc. You can calculate 1 mg in 0,1 cc.
This is not a valid conversion. Milliliters (mL or ml) and liters (L) are measures of volume. Grams (g), kilograms (kg) and milligrams (mg) are measures of weight or mass.
The concentration of lidocaine is given as 1%, which means that there is 1 gram of lidocaine in 100 ml of solution. To calculate how many milligrams of lidocaine are in 1 ml of solution, we can convert 1% to milligrams per milliliter (mg/ml): 1% = 1 gram per 100 ml 1 gram = 1000 milligrams So, 1% = 10 mg/ml Now we can use this information to calculate how many ml of the lidocaine solution contain 40 mg of lidocaine: 40 mg ÷ 10 mg/ml = 4 ml Therefore, you will need to use 4 ml of the 1% lidocaine solution to obtain 40 mg of lidocaine.
To calculate this, we can use the formula: Amount (g) = Concentration (mg/mL) x Volume (mL). Given that 1.5 g is equivalent to 1500 mg, and assuming that the concentration of Rocephin is 50 mg/mL, we can rearrange the formula to solve for volume: Volume (mL) = Amount (mg) / Concentration (mg/mL) = 1500 mg / 50 mg/mL = 30 mL. Therefore, 30 mL of a 50 mg/mL Rocephin solution is equivalent to 1.5 g.
To make 50 ml of a solution with a concentration of 500 mg per 5 ml, you would need to calculate the total amount needed: 50 ml / 5 ml = 10 units of 5 ml that are needed. Since each unit of 5 ml requires 500 mg, you would need 10 units x 500 mg = 5000 mg. To find out how many 250 mg tablets are needed to make 5000 mg, you would divide 5000 mg by 250 mg per tablet, which equals 20 tablets needed.
To determine the volume in milliliters for 10 milligrams of a substance, you need to know the density of the substance. The formula to calculate volume is Volume (ml) = Mass (mg) / Density (mg/ml). Without the density information, it is not possible to provide an accurate answer.
ml is a size for an amount of fluid. mg is a size for a mass. You can convert ml in mg if you know the material your dealing with. Then you need the periodic system of elements and calculate the molecular weight of you material knowing; mol(n) = mass(mg) / molecular weight(g) then calculate the volume (ml) =mol(n) / concentration(c)
To calculate the total amount of sodium bicarbonate in the 20ml polyfuser, you first need to convert the percentage concentration to mg/ml. 8.4% of sodium bicarbonate means 8.4g of NaHCO3 in 100ml of solution. Convert 8.4g to mg (8.4g * 1000 = 8400mg), then divide by 100ml to get 84mg/ml.
Accordingly, 1 ml = 1/7.5 mg = 0.133 mg
The concentration of the solution needs to be known to calculate the volume. If the concentration is 1 mg/ml, then you would inject 12 ml. If the concentration is different, you need to adjust the volume accordingly.
There are 1 mL in 15 mg of Toradol. Therefore, 60 mg of Toradol would be equivalent to 4 mL.