1. Determine the resultant of the following four vector displacements. Use Tip-to-Tail Method) (Scale: 1cm= 10 m 45 m @ 60° Northwest 18 m South 24 m East 34 m North 2. A car is driven 220 km East and then 80 km @ 30° Northeast. What is the displacement of the car from the point of origin? Use Tip-to-Tail Method) (Scale: 1 cm = 20 km 3. Two forces, 200 N and 250 N act at the same point of an object and make an angle of 30° with each other. The 200 N acts West while the 250 N acts Southwest. Find their resultant. (Scale: 1 cm = 50 N Use Parallelogram Method) 4. An ambitious hiker walks 25 km North and 30 km East in a day. Find the hiker's resultant displacement. (Scale: 1 cm = 5 km Use Tip-to-Tail Method) 5. A plane flies with a velocity of 52 m/s West through a 10 m/s cross wind Use Tip-to-Tall Method) blowing the plane South. Find the resultant velocity at which it travele. (Scale: 1 cm = 4 m/s (c)

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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VECTORS
VECTOR a quantity that his both magnitude
and directions.
VECTORS
(Graphical Method)
Show all work on separate sheets for Problems 1-5.
1. Determine the resultant of the following four vector displacements.
(Scale: 1cm= 10 m
Use Tip-to-Tail Method)
45 m @ 60° Northwest
18 m South
24 m East
34 m North
2. A car is driven 220 km East and then 80 km @ 30° Northeast. What is the
displacement of the car from the point of origin?
Use Tip-to-Tail Method)
(Scale: 1 cm = 20 km
3. Two forces, 200 N and 250 N act at the same point of an object and make
an angle of 30° with each other. The 200 N acts West while the 250 N acts
Southwest. Find their resultant.
(Scale: 1 cm = 50 N
Use Parallelogram Method)
4. An ambitious hiker walks 25 km North and 30 km East in a day. Find the
hiker's resultant displacement.
(Scale: 1 cm = 5 km
Use Tip-to-Tail Method)
lisplacement
5. A plane flies with a velocity of 52 m/s West through a 10 m/s cross wind
blowing the plane South. Find the resultant velocity at which it travele.
Use Tip-to-Tail Mathod)
(Scale: 1 cm = 4 m/s
d by an arrows
that of quantity
it to the quantity's
Force
10 N
Southeast
Scale
1 cm = 5 N
ws are used to
Transcribed Image Text:VECTORS VECTOR a quantity that his both magnitude and directions. VECTORS (Graphical Method) Show all work on separate sheets for Problems 1-5. 1. Determine the resultant of the following four vector displacements. (Scale: 1cm= 10 m Use Tip-to-Tail Method) 45 m @ 60° Northwest 18 m South 24 m East 34 m North 2. A car is driven 220 km East and then 80 km @ 30° Northeast. What is the displacement of the car from the point of origin? Use Tip-to-Tail Method) (Scale: 1 cm = 20 km 3. Two forces, 200 N and 250 N act at the same point of an object and make an angle of 30° with each other. The 200 N acts West while the 250 N acts Southwest. Find their resultant. (Scale: 1 cm = 50 N Use Parallelogram Method) 4. An ambitious hiker walks 25 km North and 30 km East in a day. Find the hiker's resultant displacement. (Scale: 1 cm = 5 km Use Tip-to-Tail Method) lisplacement 5. A plane flies with a velocity of 52 m/s West through a 10 m/s cross wind blowing the plane South. Find the resultant velocity at which it travele. Use Tip-to-Tail Mathod) (Scale: 1 cm = 4 m/s d by an arrows that of quantity it to the quantity's Force 10 N Southeast Scale 1 cm = 5 N ws are used to
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