A-2

Permutation Notation

noreply@blogger.com (Mr. A) — Fri, 23 Apr 2010 15:19:00 +0000

Quadratic Inequalities

noreply@blogger.com (Mr. A) — Fri, 23 Apr 2010 15:15:00 +0000

physics12_practice_mtexam

noreply@blogger.com (Mr. A) — Fri, 09 Apr 2010 15:53:00 +0000

Some practice for you...(an old midterm)

Physics 12: Midterm Exam

Please be sure to show all of your work.

1. Does the acceleration of a projectile ever go to zero? Explain.

2. For a projectile thrown at 60.0 km/h but at 50 degrees to the horizontal calculate:

a. the vertical velocity at 3 seconds

b. the horizontal velocity at 3 seconds

c. the instantaneous velocity at 3 seconds.

3. A tennis player serves a tennis ball from a height of 2.5 m. If the ball leaves the racket horizontally at 115 km/h, how far away will the ball land?

4. Will a football, kicked at 25 m/s at an angle of 35 degrees, clear a bar 3.0 m high and 23.0 m away? If so, by how much does it clear the bar? If not, by how much is the ball short?

5. Josie the pilot has a heading of [W 65⁰ S] and a ground speed of 230 km/h. If the wind speed is 95 km/h south, determine Josie's speed relative to the air.

6. Cara kicks a ball at Ryan (he was teasing her) at 20 m/s from [W 30^o N]. It rebounds at 5 m/s at [E 50^o N]. Find the change in velocity of the ball (Be careful with the diagram here-remember to write your vector equation down first).

7. Allana tosses a 32.5g puck in the chuck a puck during intermission. If it starts gliding at 0.77 m/s and experiences a frictional force of 0.0070 N, how long does the puck take to stop and how far did it travel?

8. Shandra gets her dad's truck stuck in the snow. She convinces the boys from physics to push her out. Daniel and Benny push from the sides at an angle 27^o. Ryan gets to push from the center. They each apply a force of 355N. Find the acceleration of Shandra and the truck (mass 1500kg) assuming no friction. If the acceleration was 0.37m/s², find the force due to friction.

9. If the coefficient of friction of a ramp is 0.85, determine the minimum angle required so that a box will begin to slide.

10. Determine the acceleration and tension of a system where a 3 kg mass rests on a 35 degree incline (coefficient of friction 0.35) and a 5 kg mass hangs by a string off of the edge of the incline.

11. Cassandra designs a roller coaster with a vertical loop of radius 28m. What is the minimum speed the car must go through the loop so that his design doesn't hurt anyone.

12. Alyssa builds a giant clock with a pendulum 11.25 m long. If the bob is 3.875 kg determine the maximum tension when it swings with a speed of 3.5 m/s.

13. A squirrel attaches an acorn (mass 25g) to the end of a 0.80m long string and spins it in a vertical circle at a speed of 4.85m/s (angry little squirrel). Determine the maximum and minimum tensions in the string.

14. The average accelerating force exerted on a 3.50kg shell is 2.25x10⁴ N. If the muzzle velocity is 265 m/s calculate:

a) the impulse on the shell

b) the length of time it takes the shell to exit the gun barrel.

15. A billiard ball moves at 6.8 m/s to the right. A second identical ball moves at 4.5 m/s to the left. If ball 2 moves with a velocity of 2.5 m/s to the right after they collide, what is the velocity of the first ball?

16. A 47 kg skateboarder runs at 5.2 m/s and jumps on his 1.75 kg skateboard (initially at rest). Find the combined speed of the skateboard and the rider.

17. A 325g bullet moving at 315 m/s hits and travels through a 1.25 kg block of wood, 0.35 m long. If the bullet's speed is 125 m/s after it leaves the block of wood find:

a) the block's velocity after the bullet exits;

b) the impulse applied to the block

c) the time the bullet spent in the wood;

d) the force applied to the bullet.

18. A soccer ball of mass 0.55 kg is kicked with a horizontal speed of 38 m/s. If a 29 kg goalie jumps up a catches the ball in mid-air (hooray for Gemma), what is the goalies's horizontal speed just after she catches the ball?

19. Radioactivity is the result of atoms that decay or break apart spontaneously. A stationary parent nucleus of mass 1.25x10^-24 kg decays into three particles. One particle of mass 3.1x10^-25 kg has a velocity of 2.1x10⁷ m/s [E 45^o N]. A second particle has a mass 2.9x10^-25 kg with a velocity of 4.2x10⁷ m/s [W 23^o N]. Determine the mass and velocity of the third particle.

20. A 14000 kg space shuttle with a velocity of 3800 km/h [E 25^o N], wishes to change it's course by 15 degrees. It does so by ejecting an object at a speed of 5.0x10³ km/h [S]. Calculate the mass of the object (I couldn’t resist so here’s your HINT: Think SOH CAH TOA)

1 of 1

Practice Midterm Exam

noreply@blogger.com (Mr. A) — Fri, 09 Apr 2010 15:49:00 +0000

With the midterm exam looming late next week here's an old one that might help you get started on you review.

Good Luck

Practice Midterm

Electric Fields

noreply@blogger.com (Mr. A) — Thu, 03 Dec 2009 00:26:00 +0000

I was reading through section 13.7 and decided that it goes a little further than grade 11 requires. That means that we're at the end of the chapter and need to schedule a test. Given that I'm not back until Monday I'm thinking that the earliest will be Wednesday next week, perhaps Thursday. If you have other ideas or concerns email me before the weekend.

I liked how our 'make your own quiz' project went so I'd like to try it again. This time we'll take a little more time to make it a bit more of a finished product. For today and tomorrow I want you to make sure that your homework is finished...all of it. Then make up some questions for the chapter. We haven't talked about 13.5 at all so read that and we'll review it Monday.

I'd like at least one question for each section. That makes the total seven. I realize that for 13.1 and 13.2 there isn't much to ask about, but if you read the sections there might be something that "sparks" your interest. Be creative. If not, make a question that requires you to know something from those sections. For section 13.3 I'd suggest page 530 Table 13.1. Read about how to use a table of electrostatic strengths and make a question from that. If you're having difficulty try either the internet, email me, or wait until Monday and I'll work with you then.

The other sections should be fairly easy to make some questions on. Use the examples as a guide if you get stuck.

As before, please write up an answer key with solutions on a separate sheet with comments on your process of how to solve them. I'd like these in draft form for Monday, along with your completed homework. Monday we'll trade papers and try out each other's quiz (which is why it's really important to have these in a workable form for Monday).

Did I mention that Monday was the due date for having all of your homework and a working draft of your quiz? Have a great weekend and please be careful on the roads.

Exercise #33: Operations on Radicals

noreply@blogger.com (Mr. A) — Wed, 25 Nov 2009 18:26:00 +0000

So this post is for those of you away with sports (good luck by the way). While you're away you may be able to keep up by taking a look at The Math Page. It covers everything we're going to discuss while you're away.

my new post

noreply@blogger.com (Mr. A) — Fri, 23 Oct 2009 19:35:00 +0000

Here is my new post for today. I hope you're getting your homework done early...

Remember about the test on Tuesday.

Ahhh...Monday

noreply@blogger.com (Mr. A) — Sun, 18 Oct 2009 22:06:00 +0000

Hello everyone.

I'm sorry that I can't be there today but I've listed some videos and files to help you with our new lessons. Please be sure to email me your questions so that I can help you.

Math 9

Pre-Calc 20

Physics 11: You have a study guide for Chapter 4 to work on. We'll go through it tomorrow when I'm back.

Exponent Laws

noreply@blogger.com (Mr. A) — Sun, 18 Oct 2009 20:04:00 +0000

Today we will start with marking your homework from Friday...

Then watch the video for our new ideas today...

...and complete Extra Practice #4 for tomorrow.

The Sine Law -from Friday

noreply@blogger.com (Mr. A) — Sun, 18 Oct 2009 18:53:00 +0000

From Friday...

And for today...

Some Physics Reminders

noreply@blogger.com (Mr. A) — Wed, 07 Oct 2009 01:59:00 +0000

So, by way of text messaging a former student asked for some reminders about "forces and angles" in what I'm assuming is a unit or course in mechanics.

I'm not entirely sure of what exactly you're looking for but I'll take my best guess and you can reply below by leaving a comment about what you still need to know.

Forces are vectors. When you're determining the Net Force on an object you will need to use some trigonometry. Usually I find a good diagram helpful here since you can form a triangle out of the sum of two forces (provided they're not in the same or opposing directions)with the third side being their resultant.

From here you will need either the Sine Law, or the Law of Cosines. You can also use x and y components of the forces if you have more than two.

Explanations of the Sine Law and the Law of Cosines can be found by following the links.

If instead you're working with Inclined Planes (also involving forces and angles) you'll still want to draw a good diagram. With this topic, however, you'll be working with 'right angled trig' or as you may remember from high school the 'SOH CAH TOA' trigonometry.

The other topic I'm thinking you might be working with is Work. Work is the product of Force and displacement. Most questions in grade 12 involve the force and the distance being in the same direction, but if the force is at an angle to the displacement you will also need to include the cosine of the angle between them. The previous link may help.

I apologise for all of the references to wikipedia. On such short notice it's the best I can do. If you can post or email something more specific I could give you more detail. Hope this helped and good luck.

Parallel and Perpendicular Lines

noreply@blogger.com (Mr. A) — Tue, 06 Oct 2009 17:06:00 +0000

For a full screen version click the title of this post

The Hyperbola

noreply@blogger.com (Mr. A) — Thu, 07 May 2009 02:18:00 +0000

Do your best. See you Monday.

Some review on Logarithms...

noreply@blogger.com (Mr. A) — Tue, 07 Apr 2009 13:31:00 +0000

...you can find HERE

Our first day back...(and a little testing with swf)

noreply@blogger.com (Mr. A) — Mon, 06 Apr 2009 18:35:00 +0000

Exercise #22-Logarithmic Theorems I

noreply@blogger.com (Mr. A) — Wed, 25 Mar 2009 20:37:00 +0000

Exercise #21-Logarithms

noreply@blogger.com (Mr. A) — Tue, 24 Mar 2009 13:26:00 +0000

Reciprocal Functions

noreply@blogger.com (Mr. A) — Wed, 25 Feb 2009 15:12:00 +0000

February 24 in Room 6

noreply@blogger.com (Mr. A) — Tue, 24 Feb 2009 03:55:00 +0000

Pre-Calc 12: Your lesson is here. Make sure that if you get stuck on a question you look to the review questions. For exercise #11, those start around question #8.

Pre-Calc 10: Your lesson is here. I'll likely quiz you again early next week. Make sure you're keeping up with all of the questions in your assignments.

Math 9: Some review work for you to have complete for tomorrow along with 3.1, and 3.2. Make sure that you show your work on loose leaf.

Physics 11: Mark (click on the link for the answers) and hand in your 'Chapter 3' Assignments. If you think you deserve part marks put a question mark next to the question. Finish the 'Chapter 4' handout for tomorrow.

Graphing the Absolute Value Function

noreply@blogger.com (Mr. A) — Tue, 24 Feb 2009 03:54:00 +0000

Finding the Equations of Lines (Slope/Intercept)

noreply@blogger.com (Mr. A) — Tue, 24 Feb 2009 03:52:00 +0000

Slope-Intercept Method of Graphing Lines

noreply@blogger.com (Mr. A) — Thu, 19 Feb 2009 13:56:00 +0000

Graphing Lines with Intercepts

noreply@blogger.com (Mr. A) — Wed, 18 Feb 2009 13:33:00 +0000

The link above will take you to a good website that explains the idea of intercepts really well. Read it first, then take a look at the video below.

Factoring a Difference of Squares

noreply@blogger.com (Mr. A) — Tue, 17 Feb 2009 14:42:00 +0000

[

February 13

noreply@blogger.com (Mr. A) — Fri, 13 Feb 2009 21:28:00 +0000

This week has been a difficult one because of the bad weather. We've been out of our routine and it will be difficult to get back into it after another long weekend. I've posted some notes for today for Pre-Calc 40, and Physics 11 to get us through the weekend.

Next week we'll try to get back into a routine, which will mean that every class will be having their weekly test at the end of next week. Study hard and be prepared for that.

Have a great weekend.