Physics 1D03 - Lecture 81 Newton’s Laws (cont…) Blocks, ramps, pulleys and other problems.

Physics 1D03 - Lecture 8 1

Newton’s Laws (cont…)Newton’s Laws (cont…)

• Blocks, ramps, pulleys and other problems


Example

Two blocks connected by a rope are being pulled by a horizontal force FA. Given that FA=60 N, m1=12kg and m2=18kg, and that μk=0.1, find the tension in the rope between them and the acceleration of the system.

m1m2 FA

T


Solution


Quiz

Two blocks of mass m1 and m2 (m1>m2) are being pushed by a horizontal force FA over a frictionless surface.

Consider the contact force between m1 and m2.

m1 m2FA

F21F12

A) F12 > F21

B) F12 = -F21

C) F12 > F21

D) F12 = F21


Example

Two blocks of mass m1 and m2 (m1>m2) are being pushed by a horizontal force FA over a frictionless surface. Determine:

a) the magnitude of the acceleration of the systemb) the magnitude of the contact force between the blocks

m1 m2FA


Solution


Example

A block of mass m=5kg is being pulled by two forces. F1 = 6N which acts along the positive x-axis, and F2 = 15N which acts at an angle of 135o to the positive x-axis.

What is the acceleration of the block ?


Example

A block of mass m=2kg is suspended by two ropes as shown below. What are the tensions in each rope ?

m

60o 30o


Elevator go up, elevator go down

• A person of mass 70kg is standing on a scale in an elevator at rest. What is her weight ?

• What is her weight when the elevator is accelerating up at 5m/s2 ???

• What is her weight when the elevator is accelerating down at 5m/s2 ???


10 min rest


Pulleys

• To solve pulley problems, we assume that:

1) the pulley is frictionless

2) the pulley is massless

• Hence, the force of tension on both sides of the pulley is the same


Example

• Find the acceleration of a system of two masses m=5kg and M=10kg. The angle θ=25o. No friction!

• Also, find the tension, T, in the string.

M

m

There are two ways of solving the problem – find T first, or last.


Solution


Quiz

Two masses m and M are connected as shown. The angle is θ. If there is friction on the incline, can we write the equation of motion without knowing the masses or the angle?

M

m

A) Yes, we canB) No, we can’tC) What’s an equation of motion ???


Example: A block of mass m1 on a rough horizontal surface is pulled with a force FA at an angle θ to the horizontal. A ball of mass m2 is connected to the other side, hanging over a lightweight frictionless pulley. The coefficient of friction is given by μk. Assume m1 will move to the right. Determine the acceleration of the system.

FA

m1

m2

θ


Solution


Atwood’s Machine

Calculate the acceleration of the blocks.

Assume : - no friction- massless rope and pulley- rope doesn’t stretch

Plan: • free-body diagram for each mass

• relate tensions, accelerations

• use Newton’s second Lawm1

m2


Forces on m1

T1

m1g

T2

m2g

Forces on m2

a1a2

• Tensions are equal (“ideal” pulley, light rope)• Accelerations are equal in magnitude (why?), opposite in

direction


m1g

T

a

T

m2g

a

amTgm 11 amgmT 22

Eliminate T to get gmmmm

a

21

21

a

is proportional to g, but can be small (and easy to measure)

.

.

.


10 min rest


Motion in 2DMotion in 2D

• Constant acceleration in 2-D

• Free fall in 2-D


The Position vector points from the origin to the particle.

r

The components of are the coordinates (x,y) of the particle:

For a moving particle, , x(t), y(t) are functions of time.

ji yxr

)(tr

r

x

y

r

(x,y)

path

xi

yj


ji yxr

(i, j are unit vectors)

ji

ji

yx vv

dt

dy

dt

dxdt

rdv

the unit vectors are constants

We get velocity components by differentiation:

Components: Each vector relation implies 2 separate relations for the 2 Cartesian components.


Constant Acceleration + Projectile Motion

a

If is constant (magnitude and direction), then:

22

1 t)(

)(

tavtr

tavtv

o

o

Where is the initial value at t = 0.ov

In 2-D, each vector equation is equivalent to a pair of component equations:

22

1

22

1

t)(

t)(

tavty

tavtx

yoy

xox


Quiz

A stone is thrown from the top of a building with a θ angle above the horizontal. In what direction (if any) does the stone experience an acceleration?

A) Horizontal direction onlyB) Vertical direction onlyC) Both, horizontal and vertical directionsD) No acceleration once it leaves your hand


Projectile Motion: The Equations

a

If is constant (magnitude and direction), then:

22

1 t)(

)(

tavtr

tavtv

o

o

In 2-D free-fall type questions, we separate the motion into horizontal and vertical parts:

22

1 t

t

tgvy

gtvv

and

vx

vv

oy

oyy

ox

oxx

< Horizontal, a = 0

< Vertical, a = -g


Tarzan has a new slingshot. George the gorilla hangs from a tree, and bets that Tarzan can’t hit him. Tarzan aims at George, and is sorry that he didn’t pay more attention in physics class. Why ? (neglect air resistance)

A) The stone will go over the gorilla’s headB) The stone will go below the gorillaC) The earth’s rotation must be taken into account

Quiz


Projectile Motion

x

yvo

y=voyt-½gt2

x=voxt


Example

A stone is thrown upwards from the top of a 45.0 m high building with a 30º angle above the horizontal. If the initial velocity of the stone is 20.0 m/s, how long is the stone in the air, and how far from the base of the building does it land ?


Height, Range, Time

Determine the maximum height of a projectile

Determine how far it goes (range)

Determine the total time in flight


Problem

A stone is thrown from the top of a building with a θ angle above the horizontal with an initial velocity vo.

How high will it go? How far will it go?How long does is it in the air for?

Physics 1D03 - Lecture 81 Newton’s Laws (cont…) Blocks, ramps, pulleys and other problems.

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Transcript of Physics 1D03 - Lecture 81 Newton’s Laws (cont…) Blocks, ramps, pulleys and other problems.