Vectors A
Vectors B
Vectors C
Vector D
Vector E
100

100m backstroke

Inverse vector

100

Used to find the resultant when the vectors are not placed head-to-tail.

Parallelogram law

100

Vectors having the same size and direction.

Equal vectors

100

A vector quantity that acts on an aircraft.

Lift, drag, weight, thrust

100

a+(-a) + b =

b

200

Participants running in a 100m race

equal vectors

200

Describe parallel vectors that share a common point

collinear

200

Can be found by using Pythagoras Theorem

The magnitude of a vector

200

A force that causes an aircraft to veer off-course.

Crosswind, windspeed

200

AB = (2, 4), then 3AB = 

(6, 12)

300

Vector that start at the origin

Position vector

300

Will give three time the length

scalar

300

Shows the direction of a vector

An arrow

300

If it's not a vector then it's a ___________ quantity.

scalar

300

Vectors a and b are two vectors that are at right angles to each other. If a=3 and b=4 , then c =

5

400

From the starting point to the ending point.

zero displacement

400

A vector representing the direction that an object would go if pulled by two forces.

resultant

400

Used to find the resultant when the vectors are placed head-to- tail.

Triangular law

400

Another word for magnitude

Size

400

Vectors that are parallel and share a common point.

Collinear vectors

500

Speed in a given direction

velocity

500

Shows the vertical and horizontal displacement of the vector

components

500

A quantity that is not a vector quantity.

Distance

speed 

Mass

Energy

Density

Power

Length

Area

Volume

Time

Temperature

Work

500

Without the arrow, a vector is just a ___   _______.

Line segment

500

A vector quantity    _ _ c _ _ _ _ _ _ _ _ n.

Acceleration

M
e
n
u