Presentation is loading. Please wait.

Presentation is loading. Please wait.

September 17, 2010 IOT POLY ENGINEERING I1-11 DRILL A: BOWLING PINS Ten bowling pins form a triangular arrangement. Move 3 pins so that the resulting triangle.

Published byMelanie Dawson Modified over 9 years ago

Similar presentations

Presentation on theme: "September 17, 2010 IOT POLY ENGINEERING I1-11 DRILL A: BOWLING PINS Ten bowling pins form a triangular arrangement. Move 3 pins so that the resulting triangle."— Presentation transcript:

1 September 17, 2010 IOT POLY ENGINEERING I1-11 DRILL A: BOWLING PINS Ten bowling pins form a triangular arrangement. Move 3 pins so that the resulting triangle points in the opposite direction. DRILL B: CROSSING CLOCK HANDS On a regular clock, how many times will the minute hand and hour hand cross each other between the hours of 10 a.m. and 2 p.m.?

2 IOT POLY ENGINEERING I1-11 DRILL A: BOWLING PINS - SOLUTION Ten bowling pins form a triangular arrangement. Move 3 pins so that the resulting triangle points in the opposite direction.

3 IOT POLY ENGINEERING I1-11 DRILL B: CROSSING CLOCK HANDS - SOLUTION On a regular clock, how many times will the minute hand and hour hand cross each other between the hours of 10 a.m. and 2 p.m.? 1. Between 10:54 and 10:55 a.m. 2. At 12:00 noon 3. Between 1:05 and 1:06 p.m.

4 IOT POLY ENGINEERING I1-11 PROBLEM #4 : YESTERDAY’S WORKSHEET Given a stack of individual blocks as shown. If all of the visible blocks were to disappear suddenly, how many blocks would remain? Write down your answer.

5 PROBLEM #4 : HOMEWORK SOLUTION (MODEL) IOT POLY ENGINEERING I1-11 3 + 8 + 6 = 17 There are 17 blocks left.

6 IOT POLY ENGINEERING I1-11 PROBLEM #5 : YESTERDAY’S WORKSHEET Draw the following figure in one continuous action without lifting your pencil off the paper and without crossing any lines. You may begin at any point.

7 IOT POLY ENGINEERING I1-11 PROBLEM #5 (CROSSING PATHS) : SOL’N Draw the following figure in one continuous action without lifting your pencil off the paper and without crossing any lines. You may begin at any point.

8 IOT POLY ENGINEERING I1-11 PROBLEM #1 (COUNTERFEIT GOLD COIN): A man is given 9 gold coins, but one of them is counterfeit and weighs less than the others. The man wants to determine which of the coins is counterfeit by using his balance scale. How can the man determine the false coin with only two uses of the balance scale? Write down your answer.

9 IOT POLY ENGINEERING I1-11 PROBLEM #1 COUNTERFEIT GOLD COIN FLOWCHART SOLUTION: Divide the 9 gold coins into three equal groups of 3 coins each. Call them A, B, and C. A B C Place A and B on each side of the balance. Leave C on the table. This is the first use of the balance.

10 IOT POLY ENGINEERING I1-11 PROBLEM #1 COUNTERFEIT GOLD COIN FLOWCHART SOLUTION: Did A and B balance? YES NO The light coin is in group C. Discard the heavy group. Keep the light group. One light group has been identified with one weighing. Next, we determine which of those 3 coins is lightest.

11 IOT POLY ENGINEERING I1-11 PROBLEM #1 COUNTERFEIT GOLD COIN FLOWCHART SOLUTION: Divide the 3 gold coins into three equal groups of 1 coin each. Call them D, E, and F. D E F Place D and E on each side of the balance. Leave F on the table. This is the second use of the balance.

12 IOT POLY ENGINEERING I1-11 PROBLEM #1 COUNTERFEIT GOLD COIN FLOWCHART SOLUTION: Did D and E balance? YES NO The counterfeit coin is F. The lighter coin is counterfeit. In summary, the first weighing eliminated 2 groups of 3 coins each. The second weighing eliminated 2 of the last 3 coins.

13 IOT POLY ENGINEERING I1-11 A train travels up a steep hill at a constant speed of 25 miles per hour. It takes one hour to reach the top of the hill. Neglecting the very small time it takes to turn around, how fast would the train have to travel down the hill in order for the average speed to be 50 mph for the entire round-trip? PROBLEM #2 (AVERAGE SPEED):

14 The train traveled 25 mph for one hour to reach the top of the hill. Average speed is equal to total distance divided by total time. 25 miles divided by 1 hour is 25 mph. Therefore, the train traveled 25 miles to reach the top of the hill in 1 hour. IOT POLY ENGINEERING I1-11 PROBLEM #2 (AVERAGE SPEED): SOLUTION The return trip down the hill is also 25 miles. Therefore, the total round-trip will be 50 miles. For the average speed to be 50 mph for the round-trip, the train must travel 50 miles in one hour, but the train already used up that hour on the trip up the hill. Therefore, it is impossible for the train to average 50 mph for the trip.

15 IOT POLY ENGINEERING I1-11 PROBLEM #3: HOMEWORK (PENTAGON SYMBOLS): This pentagon is divided into 5 equal parts. By coloring in one or more parts, how many unique patterns can you form? [A pattern is not unique if it can be achieved by rotating another pattern or if it is a mirror image of another pattern. Use only one color.]

16 IOT POLY ENGINEERING I1-11 PROBLEM #4: HOMEWORK (BLOCKED UP): Arrange the blocks into three equal columns so that the sum of the numerals on the blocks is the same for each of the three columns.

17 September 17, 2010 IOT POLY ENGINEERING I1-11 HOMEWORK: (Problem Solving) 1.Complete any problems from today’s lesson that you didn’t already finish. 2.Answer problems #3 (Pentagon Symbols), #4 (Blocked Up) and #5 (Power Plant Location) on the printed sheet.

Download ppt "September 17, 2010 IOT POLY ENGINEERING I1-11 DRILL A: BOWLING PINS Ten bowling pins form a triangular arrangement. Move 3 pins so that the resulting triangle."

Similar presentations

You WANT me to make a paper airplane??? A lesson in calculating the speed of an object.

You WANT me to make a paper airplane??? A lesson in calculating the speed of an object.
Applications of Systems of Linear Equations Example 1: Steve invested $12,000 for one year in two different accounts, one at 3.5% and the other at 4%.

Applications of Systems of Linear Equations Example 1: Steve invested $12,000 for one year in two different accounts, one at 3.5% and the other at 4%.
That was a long distance! I thought you’d been displaced!

That was a long distance! I thought you’d been displaced!
Classic Math Problems with Distance, Rate, and Time

Classic Math Problems with Distance, Rate, and Time
Show me your calculator.

Show me your calculator.
Lesson 3-9 Weighted Averages.

Lesson 3-9 Weighted Averages.
Mathematics Compound Units - Speed.

Mathematics Compound Units - Speed.
Copyright © 2010 Pearson Education, Inc. All rights reserved Sec 2.4 - 1.

Copyright © 2010 Pearson Education, Inc. All rights reserved Sec
 The three angles of a triangle measure x, 2x and x-20 degrees. Write and solve an equation for x. What are the three angle measures? (Hint: remember.

 The three angles of a triangle measure x, 2x and x-20 degrees. Write and solve an equation for x. What are the three angle measures? (Hint: remember.
Students will make Connections to Algebra  Variable:  A letter used to represent a range of numbers.

Students will make Connections to Algebra  Variable:  A letter used to represent a range of numbers.
EXAMPLE 1 Use a formula High-speed Train The Acela train travels between Boston and Washington, a distance of 457 miles. The trip takes 6.5 hours. What.

EXAMPLE 1 Use a formula High-speed Train The Acela train travels between Boston and Washington, a distance of 457 miles. The trip takes 6.5 hours. What.
2/19/03Physics 103, Spring 2004, U. Wisconsin1 Physics 103: Lecture 9 Energy Conservation, Power Today’s lecture will cover Potential Energy Conservation.

2/19/03Physics 103, Spring 2004, U. Wisconsin1 Physics 103: Lecture 9 Energy Conservation, Power Today’s lecture will cover Potential Energy Conservation.
Monday’s Warm Up. Objective By the end of today’s lesson, you will be able to solve an equation for a particular letter, given that the equation contains.

Monday’s Warm Up. Objective By the end of today’s lesson, you will be able to solve an equation for a particular letter, given that the equation contains.
Click when ready... Team round This round will last for approximately 2 hours. There will be no break. If you wish to leave for a toilet break or to.

Click when ready... Team round This round will last for approximately 2 hours. There will be no break. If you wish to leave for a toilet break or to.
EXAMPLE 1 Use a formula High-speed Train The Acela train travels between Boston and Washington, a distance of 457 miles. The trip takes 6.5 hours. What.

EXAMPLE 1 Use a formula High-speed Train The Acela train travels between Boston and Washington, a distance of 457 miles. The trip takes 6.5 hours. What.
Bell Quiz.

Bell Quiz.
Motion The motion of an object can be measured. The position of an object, its speed, and direction can be represented on a graph. (C.S. 2.1, 3.2)

Motion The motion of an object can be measured. The position of an object, its speed, and direction can be represented on a graph. (C.S. 2.1, 3.2)
Motion in one dimension

Motion in one dimension
T = 5 x = 9 x = 6/5 Solve. 1. 2. 3. 4. ANSWER How long would it take you To travel 2 miles going 60mph?. 2 minutes.

T = 5 x = 9 x = 6/5 Solve ANSWER How long would it take you To travel 2 miles going 60mph?. 2 minutes.
Wedneday, March 5 Chapter13-5 Symmetry. There are many types of symmetry.

Wedneday, March 5 Chapter13-5 Symmetry. There are many types of symmetry.

Similar presentations

Ads by Google