How long should it take for the victim to “come around”?
Answer: The differential diagnosis includes scoliosis, shoulder dislocation, trauma, and congenital abnormality. She should be asked about the onset of the height difference, presence of pain, and history of injury.
A scoliosis test should be performed. If the scoliosis test shows curvature, she needs an x-ray to know the specific details of the scoliosis. Afterwards, she should consider a referral to an orthopedist especially if pain is still present.
Answer:
The differential diagnosis includes scoliosis, shoulder dislocation, trauma, and congenital abnormality. She should be asked about the onset of the height difference, presence of pain, and history of injury.
A scoliosis test should be performed. If the scoliosis test shows curvature, she needs an x-ray to know the specific details of the scoliosis. Afterwards, she should consider a referral to an orthopedist especially if pain is still present.
Explanation:
Answer:
16
Explanation:
Simplify the following:
3^2 (-4) + 21/7 + (14/2)^2
Hint: | Reduce 21/7 to lowest terms. Start by finding the GCD of 21 and 7.
The gcd of 21 and 7 is 7, so 21/7 = (7×3)/(7×1) = 7/7×3 = 3:
3^2 (-4) + 3 + (14/2)^2
Hint: | Reduce 14/2 to lowest terms. Start by finding the GCD of 14 and 2.
The gcd of 14 and 2 is 2, so 14/2 = (2×7)/(2×1) = 2/2×7 = 7:
3^2 (-4) + 3 + 7^2
Hint: | Evaluate 3^2.
3^2 = 9:
9 (-4) + 3 + 7^2
Hint: | Multiply 9 and -4 together.
9 (-4) = -36:
-36 + 3 + 7^2
Hint: | Evaluate 7^2.
7^2 = 49:
-36 + 3 + 49
Hint: | Evaluate 3 + 49 using long addition.
| 1 |
| 4 | 9
+ | | 3
| 5 | 2:
52 - 36
Hint: | Subtract 36 from 52.
| 4 | 12
| 5 | 2
- | 3 | 6
| 1 | 6:
Answer: 16
Answer:
It's true
Explanation:
Chipping is when you use heroin on a particular basis without become dependent/addicted to it.
I hope this helps.
Answer:
ummmmmmm
Explanation:
Answer:
very physically active, muscular
Explanation:
Just look at the irony: A very physically active person doesn't have to exercise to lose weight. The almost paradoxical conclusion - but which actually explains a lot - is from a group of American scientists. They found that even at rest, people who do a lot of physical activity spend a lot more energy when they are resting, than a sedentary person.
According to scientists, everyone produced about the same amount of ATP. However, those who are physically active had much more metabolic activity in the muscles to burn off energy, even when at rest, so they spend more energy on muscle rest.