82
PART I FOUNDATION CONCEPTS
movement, act in opposite directions. The effort force is the force acting in the direction that produces the rotation. Of the forces being applied, the effort force and its moment arm are greater than the resistance force and its moment arm. If the products of each force and their moment arms are equal, no rotation occurs. Lever systems are classifi ed or described according to the posi- tion of the axis and the relative magnitudes of the effort and resistant arms in relationship to each other.
FIRST-CLASS LEVERS
In a fi rst-class lever, the axis or fulcrum lies between the effort force and the resistance force. The forces are on opposite sides of the axis and are acting to produce torques in opposite rotary directions. A common example of a fi rst-class lever is a seesaw. In Figure 4.6A, the forces are represented by forces A and B. MA and MB represent the distance of each force from the point of application of the force to the axis or fulcrum. If the product of force A × MA is greater than the product of force B × MB, rotation will occur in the direction of force A. Force A is
considered the effort force, and MA is the effort moment arm in this example.
First-class levers are designed for balance and are the least common lever system in the body. An example of a fi rst-class lever in the body is in the cervical spine at the atlanto-occipital joint (Fig. 4.6B), where the weight of the head (the resistance force) is stabilized and balanced by the cervical extensor muscle force (the effort force).
SECOND-CLASS LEVERS
In second-class levers, the effort moment arm is always greater than the resistance arm (Fig. 4.7). The axis of rotation is at one end of the rigid lever, and the resistance force is between the axis and the effort force. The wheel- barrow is an example of a second-class lever. Muscles often act as second-class levers when gravity or external forces are the resistance force and the muscles are the effort forces. An example of a second-class lever is when contraction of the gastrocnemius muscles during closed kinetic chain plantar fl exion lifts the heel off the surface. The axis of rotation is the plantar surface of
Effort (A)
Load (B)
Axis (fulcrum) A
Load (B)
MB MA Axis (fulcrum) Effort A A MA B MB B Fulcrum
Figure 4.6 First-class levers. (A) Because the product of force A and MA (the distance of the force from the fulcrum) is greater than the product of force B and MB, the lever will move in the direction of force A, and it is considered the effort force and MA is the effort moment arm. (B) The head moving on the neck is an example of a first-class lever. The neck extensors exert a force in one direction, while the weight of the head is a force in the opposite direction. The axis is located in the neck between the force of the extensor muscles and the weight of the head.
Resistance
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