ShmoopTube

Where Monty Python meets your 10th grade teacher.

Search Thousands of Shmoop Videos

AP Physics B 2.3 Newtonian Mechanics 178 Views


Share It!


Description:

AP® Physics B: Newtonian Mechanics Drill 2, Problem 3. What is the coefficient of friction between the biscuit and the court?

Language:
English Language

Transcript

00:03

It's time for your daily dose of Shmoop... ...so open wide.

00:07

Shuffleboard, if you haven't heard of it, is an "old people" sport that retirees play

00:11

on cruise ships.

00:13

Grandma or Grandpa stands at one end of a narrow lane, and a grid of spaces with various

00:18

scores is at the other end.

00:21

With a push of the broom, a puck... which is called a biscuit,

00:25

and no, we're not making that up... goes flying down the lane, hopefully coming to a stop

00:29

at the perfect spot.

00:32

It's like curling for people without convenient access to ice.

00:36

If an elderly player is able to give the 4 kilogram biscuit an initial speed of 5 meters

00:41

per second, and it comes to rest after 10 meters, what

00:45

is the coefficient of friction between the biscuit and the court?

00:49

And here are the possible answers...

00:54

This problem is a two-parter.

00:57

We first have to find how fast the biscuit is decelerating,

01:02

then find the coefficient of friction.

01:08

Keep in mind that there is no correlation between this and how fast

01:12

your biscuit decelerates after you send it sliding down your esophagus.

01:16

First, we know that the biscuit is moving at 5 meters per second initially,

01:19

and decelerates to a stop in 10 meters.

01:22

Not a lot of information, but it's enough.

01:24

We can use v squared = v initial squared plus 2 a x, as our core formula.

01:34

Plugging in what we know, we get 0 squared is equal to... 5 squared plus 2a times 10.

01:44

With some simple algebra, we get -25 is equal to 20a,

01:48

so a is equal to -5/4 meters per second squared.

01:55

Now that we have our acceleration, this problem is easy.

01:59

F = ma, and then F = u times the normal force.

02:06

First, to find out how much force friction is applying to the biscuit, we multiply the

02:10

mass of the biscuit by the acceleration, which we found in the last part.

02:14

4 kilograms times -5/4 meters per second is equal to 5 Newtons of force.

02:20

Sure... go ahead and chase that biscuit with a few Fig Newtons...

02:24

Finally, the force of friction is equal to mu times the normal force.

02:29

The force of friction is equal to -5 Newtons, so we plug that into the equation.

02:34

We're missing the normal force, but since the biscuit is on a flat plane,

02:38

that's just equal to mass times acceleration due to gravity, or 4(-10).

02:45

Solving for mu, we get that the coefficient of friction is equal to 1/8...

02:51

...or choice (A).

02:52

Now to deal with the friction in Grandma and Grandpa's relationship...

Up Next

Jane Eyre Summary
123034 Views

When you're about to marry the love of your life, not many things could stop you. However, finding out that your future hubby is keeping his crazy...

Related Videos

What is Shmoop?
91430 Views

Here at Shmoop, we work for kids, not just the bottom line. Founded by David Siminoff and his wife Ellen Siminoff, Shmoop was originally conceived...

ACT Math 4.5 Elementary Algebra
492 Views

ACT Math: Elementary Algebra Drill 4, Problem 5. What is the solution to the problem shown?

AP English Literature and Composition 1.1 Passage Drill 1
1039 Views

AP® English Literature and Composition Passage Drill 1, Problem 1. Which literary device is used in lines 31 to 37?

AP English Literature and Composition 1.1 Passage Drill 2
683 Views

AP® English Literature and Composition Passage Drill 2, Problem 1. What claim does Bacon make that contradicts the maxim "Whatsoever is delig...