They are areas where an artery runs relatively close to the skin and you can palpate the distension of the artery as the pulse of blood passes by.
It can be found easily whenever an artery passes close to the surface of the skin, such as the neck, wrist, or groin.
temple
Pulse can be felt where ever you can palpate the artery. Doctors normally palpate the radial artery at the wrist neck, because it can be felt well against the bone.
The point of the radial pulse is located on the patient's 'thumb' side of their wrist. You locate the patient's radial artery (pulse pont) in the patient's wrist using your middle two or three fingers. You count the number of pulses that occur in eiher 30 seconds or 1 minute. NEVER use your thumb to take a pulse. You would then be feeling your OWN pulse.
The blood vessel that has a pulse is an artery. Veins do not have enough blood pressure to register a pulse.
It can be found easily whenever an artery passes close to the surface of the skin, such as the neck, wrist, or groin.
There is only one single pulse. It can be easily found and monitored at multiple points on the body however. Try the left front of the neck and the inside of your wrist beneath your thumb.
Pulses are found wherever there are arteries large enough to palpate for a pulse.
Not a bone. A vein. You can check your pulse easily by checking the vein in your neck (the jugular) or in your wrist). This is done simply by putting a finger or two to it.
Why can the pulse be felt in certain areas of the body like wrist neck and hollow of the elbow
it is called the femoral pulse.
In the arteries
The Carotid pulse is found in the neck. The Radial pulse is found in the wrist.
gram pulse is a pulse which is yellow in colour when a gram is broken it separate itself into two parts and we eat it and named it gram pulse
blood pressure
The correct answer to this question is the "neck".
Temporal, Radial, Dorsalis Pedis, Anterior Tibial, Apical pulse, Ulnar pulse, brachial pulse, Carotid pulse, Femoral pulse, Popliteal pulse, Posterior Tibialis pulse.