Could be water retention, or hormone imbalance, from meds etc.
Neil Armstrong was the first human to walk on the moon. Mickey Mouse was the first to do the "Moon Walk" dance step, not Michael Jackson, who emulated it from Mickey.
He... doesn't.
put his arm up and push his belly tickle his tummy and turn him off when he is bent all the way down. then put his arm on his toes.turn him back on and push his left foot. or put his arm up (horizontal) and tickle his toes while he is bent down. these secrets are found by elmolover101 (Sheridan Patterson age:13)
Hairstylist dropped curling iron on her arm.
It would definitely be the scorpion and the bow and arrow. The scorpion is when you put one leg up to your head by pulling it up by the arm on the same side and balance, standing on (usually) your dominant leg. The bow and arrow is when you start out in a scorpion and then you switch your arms*. Then you take the arm that's not holding your leg now and put your wrist to your knee that is up in the air. If you don't look like a bow (your leg and back) and arrow (your arm) then try facing the side or widen your hips. *For example: if you started out your scorpion by holding your left leg with your left arm, then you would switch it so you would be holding your left leg with your right arm.
The leads in Einthoven's Triangle, which are Leads I (left and right arm), II (right arm and left foot)), and III (left arm and foot).
Start with the left temple,right temple,left arm,right arm,left chest,thrust to the stomach,right chest,left foot, right foot,left eye,right eye and lastly the crown.
The left arm.
d
Your left arm.
Left arm.
No! Fergie's left arm is not a prosthetic.
her body - systemic left armpit - left axilla left middle arm- anticubital
left arm
left
aVL (unipolar left arm electrode) -> augmented voltage/vector left aVR (unipolar right arm electrode) -> augmented voltage/vector right aVF (unipolar left leg electrode) -> augmented voltage/vector foot
Largely imaginary, or at best statistical. There isn't an absolute rule that can always be used to determine one of those from the other.