Warm-Up 12/02

1. Warm-Up 12/02 Find the distance between each given pair of points and find the midpoint of the segment connecting the given points. 1. (1, 4), (– 2 , 4) 2. (2, – 9), (– 3, – 7) Midpoint =

3. Rigor:You will learn how to represent and operate with vectors geometrically and how to resolve vectors into their rectangular components. Relevance:You will be able to use vectors to solve real world problems.

4. 8-1 Introduction to Vectors

5. Scalar is a single real number. Vectoris a quantity that has a both magnitude and direction. Initial point or tail Terminal point or tip Standard position is when the initial point at the origin Direction is the directed angle between the vector and the horizontal line (x-axis). Magnitudeis proportional to the length of the line segment.

6. Example 1: State whether each quantity is a vector quantity or a scalar quantity. a boat traveling at 15 mph a hiker walking 25 paces due west a person’s weight on a bathroom scale Magnitude (15 mph) but no direction, so this is a scalar quantity. Magnitude (25 paces) with direction (due west), so this is a vector quantity. Magnitude (mass) with direction( downward pull of gravity), so this is a vector quantity.

7. Quadrant bearing is a directional measurement between 0 and 90 east or west of the north-south line (y-axis). True bearing is a directional measurement where the angle is measured clockwise from north always given using three digits. True bearing of 145.

8. Example 2: Use a ruler and a protractor to draw an arrow diagram for each quantity described. Include a scale on each diagram. a = 20 feet per second at a bearing of 030. v = 75 pounds of force at 140 to the horizontal. z = 30 miles per hour at a bearing of S60W. 1 in : 10 ft/sec 1 cm : 25lb 1 in : 20 mi/h

9. Parallel vectors have the same or opposite direction but don’t have to have the same magnitude. Equivalent vectors have the same direction and magnitude. Opposite vectors have the same magnitude but opposite direction.

10. Resultant is a single vector that combines two or more vectors and has the same effect as applying one vector after the other.

11. Example 3: Tia walks N50E for 120 feet and then walks 80 feet due east. How far and at what quadrant bearing is Tia from her starting position? 1 cm : 50 ft

12. Zero Vector or null vector is the resultant of adding two opposite vectors.

13. Example 4: Draw a vector diagram of .

14. Example 5: An airplane is flying with an airspeed of 310 knots on a heading of 050. If a 78-knot wind is blowing from true heading of 125, determine the speed and direction of the plane relative to the ground. The speed of the plane relative to the ground is about 299.4 knots at about 035.

15. Components of a vector are the vectors that combine to make resultant. Rectangular Components of a vector are horizontal and vertical.

16. Example 6: Heather is pushing the handle of a lawn mower with a force of 450 newtons at an angle of 56 with the ground. Draw a diagram that shows the resolution of the force that Heather exerts into it rectangular components. Find the magnitudes of the horizontal and vertical components of the force. The magnitude of the horizontal component is about 252 newtons and the magnitude of the vertical component is about 373 newtons.

17. math! • 8-1 Assignment: • TX p488-489, 2-12 even & 20-40 even • Turn in Take Home Test Today