because it is pumping against more resistance. it has to be stronger to get blood to the entire body. the RIGHT ventricle only has to pump blood to the lungs.
The right and left venrticles are separated by the interventicular septum.
The aorta and the pulmonary arteries provide right and left ventricular afterload. Afterload is the resistance the blood loaded into the heart when it tries to leave.
It is the muscular contraction of the heart muscles to pump blood out of the heart. The right ventricle contracts to send blood through the pulmonary arteries, and the left ventricle contracts to send blood into the aorta.
There are two muscles that divide the chambers of the heart. The right and left ventricles are divided by the interventricular septum and the right and left atria are divided by the interatrial septum.
the different types of ventricles are the left ventricle and the right ventricle.
It is the muscular contraction of the heart muscles to pump blood out of the heart. The right ventricle contracts to send blood through the pulmonary arteries, and the left ventricle contracts to send blood into the aorta.
A rapid heart rate can originate in either the left or right ventricle. Ventricular tachycardia which lasts more than 30 seconds is referred to as sustained ventricular tachycardia
by noticing the thickness of the ventricular walls
The risk of left ventricular misfire is a left ventricular free wall rupture. A misfire in either the right or the left ventricle of the heart is an electrical problem with the circuitry. These conditions are usually treated through angioplasty.
LVH (Left Ventricular Hypertrophy) is (anatomical) structural condition and status of the heart, while Left Ventricular Dysfunction is disturbance in physiological functions and status of heart.
That portion of the heart wall that divides the right and left ventricles
The baroreceptors are located in carotid sinus. They are not located in your left or right ventricles.