Topic 1

Question 1

Biomechanics definition

Answer 1

synthesis of biology and mechanics that seeks to understand and explain human movement

Question 2

Biomechanics is used for

9 answers

Answer 2

sports technique, improving performance, predicting performance, monitoring rehab, assessing equipment, designing equipment, postural differences, work environments, preventing injury.

Question 3

Kinematics

Answer 3

way to describe motion, can be seen.
e.g. displacement, velocity, acceleration: can be linear/angular.

Question 4

Kinetics

Answer 4

the forces that cause motion, can’t be seen.
e.g. Linear: force
Angular: torques

Question 5

Scalar

Answer 5

Magnitude only, can be added together.
e.g. mass, distance, speed, time.

Question 6

Vector

Answer 6

Magnitude and direction, cannot be added together.
e.g. force, displacement, velocity, acceleration.

Question 7

Qualitative

Answer 7

Description made without use of numbers.
e.g. good, poor, long, heavy, flexed, rotated, spiffy.

Question 8

Quantitative

Answer 8

Description made with numbers.
e.g. 6 meters, 3 seconds, 50 turns, 2 players, 10 dollars.

Question 9

Linear motion

Answer 9

Translatory.
all parts of body move through same displacement, in the same direction at the same time.

Question 10

Angular motion

Answer 10

About an axis.
All parts of body move through the same angle in the same direction, at the same time.

Question 11

General motion

Answer 11

When there is a combination of linear & angular motion.

Question 12

the three types of motion are:

Answer 12

linear, angular, and general.

Question 13

Rectilinear

Answer 13

straight line.
e.g. 100m sprint, 50m swim etc.

Question 14

Curvilinear

Answer 14

through a curved path.
e.g. long jump, high jump.

Question 15

Linear displacement

Answer 15

Change in location from initial to final position.
Differs to distance.

Question 16

Linear velocity

Answer 16

Rate of change in displacement.
Velocity (m/s) = Change in displacement (m) / Change in time (s).

Question 17

Linear accelaration

Answer 17

Rate of change in velocity
Acceleration (m/s2) = change in velocity / change in time.

Question 18

Increase in velocity, in a positive direction =

Answer 18

+ acceleration

Question 19

Decrease in velocity, in a positive direction =

Answer 19

_ acceleration

Question 20

Increase in velocity, in a negative direction =

Answer 20

_ acceleration

Question 21

Decrease in velocity, in a negative direction =

Answer 21

+ acceleration

Question 22

Average velocity defintition

Answer 22

velocity throughout a given time period

Question 23

Instantaneous velocity defintion

Answer 23

velocity at a precise point in time.

Question 24

Instantaneous velocity formula

Answer 24

Vi = (Di+1 - Di-1) / (Ti+1 - Ti-1)

V = velocity D = displacement T = time

Question 25

Instantaneous acceleration formula

Answer 25

Ai = (Vi+1 - Vi-1) / (Ti+1 - Ti-1)
A = acceleration V = velocity T = time