Show:
Muscular Contractions
Motor Units & Muscle Function
Joints and Tissue
Levers
Skeleton and Movement
100

Which type of contraction occurs when a muscle generates force without changing length?

Isometric

100

What principle states that motor units either fully contract or not at all?

All-or-none

100

Which connective tissue connects muscle to bone?

Tendon

100

What are the three components of a lever?

Effort, fulcrum, load

100

Which part of the skeleton includes the skull and vertebral column?

Axial

200

During a bicep curl, lowering the weight involves which contraction?

Eccentric

200

Which muscle fiber type is most fatigue-resistant?

Type 1

200

Which type of joint allows the greatest movement?

Synovial

200

In the human body, most levers are:

Third class

200

Which term describes a position closer to the center of the body?

Proximal

300

Explain the difference between concentric and eccentric contractions.

Concentric = muscle shortens; eccentric = muscle lengthens while under tension.

300

What determines motor unit recruitment during activity?

Intensity and type of activity (size principle—smaller units recruited first).

300

State one main function of cartilage.

Reduces friction, absorbs shock, or supports structure.

300

What determines the class of a lever?

The relative positions of effort, fulcrum, and load.

300

Define “abduction.”

Movement away from the midline of the body.

400

Which contraction type involves movement at a constant speed throughout the range of motion?

Isokinetic

400

Which fiber type produces the greatest force?

Type IIx

400

Which connective tissue connects bone to bone?

Ligament

400

Which lever class has the greatest mechanical advantage?

Second class

400

Movement occurs in which of the following?

Planes and axes

500

Why are eccentric contractions important in injury prevention?

They control movement and deceleration, reducing strain on joints and tissues.

500

How do hypertrophy and atrophy affect motor unit recruitment?

Hypertrophy improves recruitment efficiency and force; atrophy reduces recruitment capacity and strength.

500

Explain the relationship between joint structure and function.

Joint structure determines range of motion and stability (e.g., synovial joints allow more movement but less stability).

500

Give one example of a lever outside the body used in sport.

Tennis racket, baseball bat, golf club, etc.

500

Name two planes of movement and a movement that occurs in each.

  • Sagittal: flexion/extension
  • Frontal: abduction/adduction
  • Transverse: rotation