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Quadratic Equation Quadratic equations, such as x = v i t + ½ a t 2 can be tricky to solve. 3 strategies 1.Factoring (doesn’t usually work well with physics)

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Presentation on theme: "Quadratic Equation Quadratic equations, such as x = v i t + ½ a t 2 can be tricky to solve. 3 strategies 1.Factoring (doesn’t usually work well with physics)"— Presentation transcript:

1 Quadratic Equation Quadratic equations, such as x = v i t + ½ a t 2 can be tricky to solve. 3 strategies 1.Factoring (doesn’t usually work well with physics) 2.Quadratic Equation solution (always works, but you need to memorize) 3.Trial & Error / Plugging in values (can be useful for multiple choice) We will talk about #2 and #3.

2 Quadratic Equation Solution First, put your equation into this form: 0 = at 2 + bt + c for example, x = v i t + ½ at 2 becomes 0 = ½ at 2 +v i t – x so, a = ½ a b = v i c = -x Then, use this equation to solve for t

3 Quadratic Equation Solution – We do A ball is launched upward with a speed of 15 m/s from an intial height of 5 m. What are the two approximate times that the object will be located at the height of 10 m above the ground?

4 Quadratic Equation Solution – We do A ball is launched upward with a speed of 15 m/s from an intial height of 5 m. What are the two approximate times that the object will be located at the height of 10 m above the ground? 0 = ½ at 2 +v i t – x so, a = ½ a = ½ * - 9.8 m/s 2 = -4.9 m/s b = v i = 15 m/s c = -x = -10 m tt = 0.5 sec and 1 sec

5 Plugging in Numbers Sometimes, you can just plug in numbers into the equation to find the solution. Works best with multiple choice.

6 Plugging in Numbers Sometimes, you can just plug in numbers into the equation to find the solution. Works best with multiple choice. Example – WE DO A car and truck start from the same position. The car has a constant velocity of 20 m/s. The truck has an initial velocity of zero, but accelerates 3 m/s. At approximately what time does the truck overtake the car? A. 6.6 s B. 10.2 s C. 13.4 s D. 15.1 S

7 Plugging in Numbers Sometimes, you can just plug in numbers into the equation to find the solution. Works best with multiple choice. Example – WE DO A car and truck start from the same position. The car has a constant velocity of 20 m/s. The truck has an initial velocity of zero, but accelerates 3 m/s. At approximately what time does the truck overtake the car? A. 6.6 s B. 10.2 s C. 13.4 s D. 15.1 S Use x = v i t + ½ at 2 for each car and compare x. At which answer choice does the truck final reach the car?

8 Plugging in Numbers Sometimes, you can just plug in numbers into the equation to find the solution. Works best with multiple choice. Example – WE DO A car and truck start from the same position. The car has a constant velocity of 20 m/s. The truck has an initial velocity of zero, but accelerates 3 m/s. At approximately what time does the truck overtake the car? A. 6.6 s B. 10.2 s C. 13.4 s D. 15.1 S Use x = v i t + ½ at 2 for each car and compare x. At which answer choice does the truck final reach the car?

9 Quadratic Equation – You do A ball is dropped from 15 ft. At what time will the ball be 5 ft from the ground? Car 1 and Car 2 start at the same position. Car 1 has an initial velocity of 10 m/s and an acceleration of 5 m/s 2. Car 2 has an initial velocity of 15 m/s and an acceleration of 2 m/s 2. At one time will car 2 overtake car one? A. 1.2 sec B. 2.5s C. 3.4 s D. 4.2 s

10 Exit ticket & Homework Exit ticket: write facts about circular motion Homework: Circular acceleration problems Review problems Extra credit: Write 3 challenging physics problems and solve them on another sheet of paper. Upcoming: CFA Wed / Thur next week. Exam right after break.

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