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Physics Behind the Simulation: A CS251
Report by Group 29
Shubham Jadhav
130050011
[email protected]
Siddharth Bulia
130050012
[email protected]
Amit Malav
130050032
[email protected]
October 22, 2014
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Introduction
Body
Overview
1
Introduction
2
Body
Newton’s Cradle
Ball Elevator
Chain of Hammers
Dominos and The Rotating Bat
3
Conclusion
4
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Conclusion
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Introduction
Body
Conclusion
Introduction
The Mini Alarm Snoozer
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Introduction
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Introduction
The Mini Alarm Snoozer
We are creating a Rube Goldberg Machine which helps a
person to snooze the alarm.
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Introduction
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Introduction
The Mini Alarm Snoozer
We are creating a Rube Goldberg Machine which helps a
person to snooze the alarm.
We have used many components to achieve this like Ball
Elevator, Hammers, Dominos, Inclined Planes, Pendulums, etc.
Introduction
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Introduction
The Mini Alarm Snoozer
We are creating a Rube Goldberg Machine which helps a
person to snooze the alarm.
We have used many components to achieve this like Ball
Elevator, Hammers, Dominos, Inclined Planes, Pendulums, etc.
This report is to give an overview of our project
Introduction
Body
Overview
1
Introduction
2
Body
Newton’s Cradle
Ball Elevator
Chain of Hammers
Dominos and The Rotating Bat
3
Conclusion
4
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Conclusion
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Introduction
Body
Newton’s Cradle
Working of Newton’s Cradle[2]
Conclusion
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Introduction
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Conclusion
Newton’s Cradle
Working of Newton’s Cradle[2]
Newton’s Cradle work on the machanism of consecutive
Collisions.
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Introduction
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Newton’s Cradle
Working of Newton’s Cradle[2]
Newton’s Cradle work on the machanism of consecutive
Collisions.
As all the balls are elastic, each collision simply transfer all its
energy to the next ball.
Introduction
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Newton’s Cradle
Working of Newton’s Cradle[2]
Newton’s Cradle work on the machanism of consecutive
Collisions.
As all the balls are elastic, each collision simply transfer all its
energy to the next ball.
So in final, energy is transferred to the final ball and it continues.
Introduction
Body
Conclusion
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Newton’s Cradle
Working of Newton’s Cradle[2]
Newton’s Cradle work on the machanism of consecutive
Collisions.
As all the balls are elastic, each collision simply transfer all its
energy to the next ball.
So in final, energy is transferred to the final ball and it continues.
Momemtum Conservation Law
m1 u1 + m2 u2 = m1 v1 + m2 v2
(1)
where m1 ,m2 are the masses and u1 ,u2 ,v1 ,v2 are the initial and
final velocities of two bodies.
Introduction
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Ball Elevator
Mechanism of ball Elevator
Conclusion
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Introduction
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Ball Elevator
Mechanism of ball Elevator
When the Newton’s Cradle gives the ball to this machine, the
Cross parts of this machine will coordinate with each and move
the ball up.
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Ball Elevator
Mechanism of ball Elevator
When the Newton’s Cradle gives the ball to this machine, the
Cross parts of this machine will coordinate with each and move
the ball up.
The speed with which the rod will hit the ball depends on the
angular velocity of rod and its length.
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Ball Elevator
Mechanism of ball Elevator
When the Newton’s Cradle gives the ball to this machine, the
Cross parts of this machine will coordinate with each and move
the ball up.
The speed with which the rod will hit the ball depends on the
angular velocity of rod and its length.
v = rω
(2)
where v is speed of end of rod, r is
the length of rod and ω is the angular
velocity of rod.
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Chain of Hammers
Machanism of Chain of Hammers[3]
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Introduction
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Chain of Hammers
Machanism of Chain of Hammers[3]
The ball will hit the first hammer and transfer momentum to it.
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Chain of Hammers
Machanism of Chain of Hammers[3]
The ball will hit the first hammer and transfer momentum to it.
It will swing about its revolute joint and hit the ball below and
this goes on.
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Chain of Hammers
Machanism of Chain of Hammers[3]
The ball will hit the first hammer and transfer momentum to it.
It will swing about its revolute joint and hit the ball below and
this goes on.
As soon as the Pulley will become free,the rock hits the alarm
clock and snooze it.
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Chain of Hammers
Machanism of Chain of Hammers[3]
The ball will hit the first hammer and transfer momentum to it.
It will swing about its revolute joint and hit the ball below and
this goes on.
As soon as the Pulley will become free,the rock hits the alarm
clock and snooze it.
m1 u1 = m1 v1 + m2 v2
(3)
where m1 , m2 are the masses
of the ball and the hammer respectively, u1 is initial linear velocity and v1 , v2 are final velocities.
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Dominos and The Rotating Bat
Machanism of Dominos and The Rotating Bat[1]
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Dominos and The Rotating Bat
Machanism of Dominos and The Rotating Bat[1]
The Rotating Bat hill the ball towards the Dominos.
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Dominos and The Rotating Bat
Machanism of Dominos and The Rotating Bat[1]
The Rotating Bat hill the ball towards the Dominos.
The ball will hit the first dominoe and transfer momentum to the
other Dominos.
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Dominos and The Rotating Bat
Machanism of Dominos and The Rotating Bat[1]
The Rotating Bat hill the ball towards the Dominos.
The ball will hit the first dominoe and transfer momentum to the
other Dominos.
This will lead in turn to a chain reaction and at last will move the
ball at the far end.
Introduction
Body
Overview
1
Introduction
2
Body
Newton’s Cradle
Ball Elevator
Chain of Hammers
Dominos and The Rotating Bat
3
Conclusion
4
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Conclusion
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Introduction
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Conclusion
This tour just scratches the surface.
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Introduction
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Conclusion
This tour just scratches the surface.
Through this presentation, we just described some of our
elements of our project .
Introduction
Body
Conclusion
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Conclusion
This tour just scratches the surface.
Through this presentation, we just described some of our
elements of our project .
We showed the mechanism behind their working .
Introduction
Body
Overview
1
Introduction
2
Body
Newton’s Cradle
Ball Elevator
Chain of Hammers
Dominos and The Rotating Bat
3
Conclusion
4
Bibliography
Conclusion
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Introduction
Body
Conclusion
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Google.
http://www.google.com.
Wikipedia.
http://en.wikipedia.org/wiki/Newton’s cradle.
Wikipedia.
http://en.wikipedia.org/wiki/Pulley.
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