Week 1- Kinematics of Human Movement

Question 1

Kinematics

Answer 1

• Branch of mechanics that describes the motion of a body

- No reference to force/torque

Question 2

Displacement

Answer 2

Change in position/time

Question 3

Translation

Answer 3

• Linear motion

- All parts move together

Question 4

Rotation

Answer 4

Rigid body moves in a circular path around some pivot point

Question 5

Curvilinear motion

Answer 5

All parts move together in a nonlinear path

Question 6

Direction of x-axis

Answer 6

• Coronal

- Side to side

Question 7

Direction of y-axis

Answer 7

• Vertical

- Up and down

Question 8

Direction of z-axis

Answer 8

• Anteroposterior

- Front to back

Question 9

Degrees of freedom

Answer 9

Number of independent directions of movements allowed at a joint

Question 10

Arthrokinematics

Answer 10

• Describes the motion occurring b/t articular surfaces of joints
• Maintains joint integrity

Question 11

Roll (rock)

Answer 11

Multiple points along one rotating articular surface contact multiple points on another articular surface

Question 12

Slide (glide)

Answer 12

A single point on one articular surface contact multiple points on another articular surface

Question 13

Spin

Answer 13

A single point on one articular surface rotates on a single point on another articular surface

Question 14

Convex-on-Concave Rule

Answer 14

Roll and slide occur in opposite directions

Question 15

Concave-on-Convex Rule

Answer 15

Roll and slide occur in the same directions

Question 16

How does the proximal or distal nature of the bony segment affect arthrokinematics?

Answer 16

It will determine if the concave is moving on the convex or vice versa

Question 17

Close-Packed Position

Answer 17

• Joint Congruency: minimum
• Ligaments and Capsule: slack
• Joint Surfaces: unlocked
• Intra-articular Volume: Maximized
• Static Efficiency: inefficient
• Dynamic Safety: safe

Question 18

Open-Packed Position

Answer 18

• Joint Congruency: maximum
• Ligaments and Capsule: tense
• Joint Surfaces: locked
• Intra-articular Volume: minimized
• Static Efficiency: efficient
• Dynamic Safety: dangerous

Question 19

Categories for ROM

Answer 19

• Hypermobility
• Normal
• Hypomobility

Question 20

Normal back extension ROM

Answer 20

25 degrees

Question 21

Normal back flexion ROM

Answer 21

90 degrees

Question 22

Normal back lateral flexion ROM

Answer 22

25 degrees R/L

Question 23

Normal neck extension ROM

Answer 23

60 degrees

Question 24

Normal neck flexion ROM

Answer 24

50 degrees

Question 25

Normal neck lateral flexion

Answer 25

45 degrees R/L

Question 26

Normal neck rotation ROM

Answer 26

80 degrees R/L

Question 27

Normal hip extension ROM

Answer 27

30 degrees

Question 28

Hypermobility

Answer 28

• May be normal, even advantageous
• =/= instability
• Can suggest underlying medical condition (Marfans, EDS, etc)

Question 29

Hypomobility

Answer 29

Little ROM compared to normal limits