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Heart Beat Per Second



  1. The Beat Per Second Of Your Heart
  2. Heart Beats Per Second Chart
  3. Heart Beat Per 30 Seconds
  4. Heartbeat Per Second Lab Graph

The heart's electrical system

This heart beat can be felt as your 'pulse' on your wrist or neck. Your pulse is measured by counting the number of times your heart beats in one minute. For example, if your heart contracts 72 times in one minute, your pulse would be 72 beats per minute (BPM). Lifestyle triggers. Strenuous exercise, not getting enough sleep, or drinking too much caffeine. To check your pulse at your wrist, place two fingers between the bone and the tendon over your radial artery — which is located on the thumb side of your wrist. When you feel your pulse, count the number of beats in 15 seconds. Multiply this number by four to calculate your beats per minute. The American Heart Association states the normal resting adult human heart rate is 60–100 bpm. Tachycardia is a high heart rate, defined as above 100 bpm at rest. Bradycardia is a low heart rate, defined as below 60 bpm at rest. During sleep a slow heartbeat with rates around 40–50 bpm is common and is considered normal.

The atria and ventricles work together, alternately contracting and relaxing to pump blood through your heart. The electrical system of your heart is the power source that makes this possible.

Your heartbeat is triggered by electrical impulses that travel down a special pathway through your heart:

Second
  1. SA node (sinoatrial node) – known as the heart’s natural pacemaker. The impulse starts in a small bundle of specialized cells located in the right atrium, called the SA node. The electrical activity spreads through the walls of the atria and causes them to contract. This forces blood into the ventricles. The SA node sets the rate and rhythm of your heartbeat. Normal heart rhythm is often called normal sinus rhythm because the SA (sinus) node fires regularly.
  2. AV node (atrioventricular node). The AV node is a cluster of cells in the center of the heart between the atria and ventricles, and acts like a gate that slows the electrical signal before it enters the ventricles. This delay gives the atria time to contract before the ventricles do.
  3. His-Purkinje Network. This pathway of fibers sends the impulse to the muscular walls of the ventricles and causes them to contract. This forces blood out of the heart to the lungs and body.
  4. The SA node fires another impulse and the cycle begins again.

At rest, a normal heart beats around 50 to 99 times a minute. Exercise, emotions, fever and some medications can cause your heart to beat faster, sometimes to well over 100 beats per minute.

Heart

How fast does the normal heart beat?

How fast the heart beats depends on the body's need for oxygen-rich blood. At rest, the SA node causes your heart to beat about 50 to 100 times each minute. During activity or excitement, your body needs more oxygen-rich blood; the heart rate rises to well over 100 beats per minute.

Medications and some medical conditions may affect how fast your heart-rate is at rest and with exercise.

The Beat Per Second Of Your Heart

How do you know how fast your heart is beating?

You can tell how fast your heart is beating (your heart rate) by feeling your pulse. Your heart-rate is the amount of times your heart beats in one minute.

Heartbeat per second lab graph

You will need a watch with a second hand.

Heart Beats Per Second Chart

Place your index and middle finger of your hand on the inner wrist of the other arm, just below the base of the thumb.

You should feel a tapping or pulsing against your fingers.

Heart Beat Per 30 Seconds

Count the number of taps you feel in 10 seconds.

Multiply that number by 6 to find out your heart-rate for one minute:

Pulse in 10 seconds x 6 = __ beats per minute (your heart-rate)

When feeling your pulse, you can also tell if your heart rhythm is regular or not.

Normal Heart Beat

Heartbeat Per Second Lab Graph

1. The SA node sets the rate and rhythm of your heartbeat.

2. The SA node fires an impulse. The impulse spreads through the walls of the right and left atria, causing them to contract. This forces blood into the ventricles.

3. The impulse travels to the AV node. Here, the impulse slows for a moment before going on to the ventricles.

4. The impulse travels through a pathway of fibers called the HIS-Purkinje network. This network sends the impulse into the ventricles and causes them to contract. This forces blood out of the heart to the lungs and body.

5. The SA node fires another impulse. The cycle begins again.