Chapter 11 Science Notes
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Transcript Chapter 11 Science Notes
Chapter 11
Using Forces
Lesson 1 Motion
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Position- the location of an object. It answers the question, “Where is the object?”
Motion- a change in position over time.
Motion has two parts: distance and direction
Distance can be measured by using arrows on a grid and a ruler.
***Units of measurement for distance: meters(m), kilometers(km), feet(ft), or
miles(mi)
Direction is where an arrow is pointing: north, south, east, west (use a compass, protractor,
and units of degrees)
Lesson 1 continued…
• Speed- how fast an object’s position changes over time. To calculate
speed:
Speed=distance ÷ time
Lesson 1 continued…
• Velocity- measurement that combines both the speed and direction of a
moving object.
• Acceleration- change in velocity over time for an object
Acceleration=change in speed ÷ time
• Momentum- the more momentum an object has, the easier it is for that
object to move other objects.
Momentum= mass x velocity
Lesson 2 Forces and Motion
• Force- any push or pull from one object to another
Forces can crush, stretch, or twist objects and deform them.
(you can crush an aluminum can with your hands)
The harder the substance is, the more force it takes to change
its shape.
Lesson 2 Continued…
• Friction- The force that opposes the motion of one object moving past
another
Friction depends on the surfaces of two objects and how hard the objects
are pushed together.
***smooth surfaces=less friction
***rough surfaces=more friction
Friction also increases with the weigh of the object
• Air resistance- When an object moves through air, the air hits an object
and slows it down.
Lesson 2 Continued….
Newton’s First Law of Motion
An object at rest tends to stay at rest, and an object in constant motion tends
to stay in motion, unless acted upon by an outside force
Newton’s First Law of Motion is sometimes called the law of inertia
•
Balanced forces- when forces act on an object without changing its motion
Lesson 2 continued….
Newton’s Second Law of Motion
The unbalanced force of an object is equal to the mass of the object multiplied by its
acceleration:
Force= mass x acceleration
Lesson 2 Continued…
Newton’s Third Law of Motion
All forces occur in pairs, and these two forces are equal in strength and
opposite in direction. For every action there is an equal and opposite
reaction!
• Action Forces- the push of the first object on
the second object.
• Reaction Forces- the push of the second object back
on the first.
Lesson 3 Work and Energy
• Work- measurement of the energy used to perform a task
Work= force x distance
Friction
Pulling force
• Energy- the ability to perform work or to
change an object
Lesson 3 continued…
• Potential Energy- energy that is stored in the position or structure of an
object
• Kinetic Energy- energy of a moving object
• Law of Conservation of Energy- energy cannot be created or destroyed it
can only change form.
Potential Energy
(stored energy)
Kinetic Energy
(releasing
energy)
Lesson 4 Simple Machines
• Simple Machines- a machine that takes one force and changes its
direction, distance, or strength.
• Effort- the force you apply to a machine
• Load- the object moved by the output
• Fulcrum- a lever that rotates around a pivot point
Fulcrum
Lesson 4 continued…
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Gears are a type of wheel and axle
A winding road is a type of inclined plane
A screw is an inclined plane wrapped around a post
Scissors, knives, and other cutting tools take advantage of the wedge.
Lesson 4 continued…
• Compound Machines- when two or more simple machines are combined
• Efficiency – ratio of input energy to output work, usually written as a
percentage.
A bike is made up of
many simple
machines, so it is
considered a
compound machine