X^2 -8x = 9 is the rewritten version
I used completing the square to solve it and the work it attached below
Answer:
m<3 = 90
C
Step-by-step explanation:
This is a kite. The diagonals intersect each other in such a way that m<1 and m<3 are at right angles. m<3 = 90o
Slope is always the one with a x
Answer:
<em><u>Answer is below</u></em>
Step-by-step explanation:
<u><em>3+5(2−3)−6</em></u>
<u><em>=3+(5)(−1)−6</em></u>
<u><em>=3+−5−6</em></u>
<u><em>=3+−11</em></u>
<u><em>=−8</em></u>
<u><em>So therefore, your answer would be -8</em></u>
Answer:
3 mg
Step-by-step explanation:
<h3>Step 2 of the attachment</h3>
<em>If the patient is less than 70 years old, the loading dose is 80 Howell Units
</em>
<em>per kilogram of DM. One Howell Unit is equivalent to 0.0020 mg of pure heparin. </em>
2. Calculate how many mg of pure heparin is in 80 Howell Units
- 80*0.0020 = 0.16 mg per kg of DM
<h3>Step 3</h3>
<u>Let's calculate Dosing mass first, as per given formula:</u>
As body fat is 10%,
- LBM = 90% of TBM = 0.9*TBM
<u>As TBM is given = 40 lbs</u>
- DM = 40 *0.9 + ( 40 - 40*0.9)/3 = 37.33 lbs
<u>Converting to kg</u>
- DM = 37.33 Lb /2.2 = 16.97 kg
<u>Since dosing mass and dosing rate known, we can calculate loading dose:</u>
- 16.97 kg *0.16 mg/kg = 2.7152 mg ≈ 3 mg as it is asking dose in mg
