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Physics 2A Forces and their effects
Descripción
Mapa Mental sobre Physics 2A Forces and their effects, creado por ellerae12 el 22/03/2014.
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ellerae12
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ellerae12
hace casi 11 años
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Resumen del Recurso
Physics 2A Forces and their effects
acceleration and velocity time garphs
gradient=acceleration
flat sections = steady speed
steeper the graph
greater acceleration/ decleration
uphill (/) accelecration
downhill (\) deceleration
area under graph =distance in that time
curve = change acceleration
acceleration=
gradient=
vertical change / horizontal change
weight mass and gravity
force of attraction
only notice when one force is big
gives everything weight
without it acceleration would be same throughout universe.
mass = stuff in object
mass is the same anywhere in universe
volume
caused by gravity
weight is a force
weight = mass x gravitational field strength
resultant forces
overall force on object
most times 2 forces acting on one object
overall effect
decides the motion
acceleration
decelration
stop
constant speed
means change in velocity
object stationary
resultant force = 0N
object remain stationary
moving object 0N
keep moving at same speed/velocity
resultant force = more than 0N
object accelerate in direction of force
force = mass x acclecration
reaction forces are equal and oppostie
two objects interact forces exert are equal and oppostie
kinetic energy
movement energy
anything that moves has kinetic energy
kinetic energy = 1/2 x mass x speed(squared)
Ek = 1/2 x m x v(squared)
kinetic energy depends on mass and speed
big mass and fast speed = more energy
kinetic energy transferred is work done
kinetic energy transferred = work done by brakes
1/2 x m x v (squared) = f x d
potential energy
gravitational potential energy
due to height
gravitational potential energy = mass x gravity x height
Ep = m x g x h
falling objects convert potential into kinetic
kinetic energy gained = potential energy lost
some kinetic energy is transferred into heat and sound
elastic objects store energy as elastic potential energy
any object that can return to its original shape after force is removed is elastic
work is done to an elastic object to change its shape
this energy is not lost but stored
elastic potential energy
the elastic potential energy is converted into kinetic energy when the force is removed the object returns to its original shape
extension of an elastic object is directly proportional to force
F = k x e
f = force applied
k = spring constant (depends on the material of the spring)
e = extentsion
there's a limit to the amount of force applied for the extension to increase proportionally
limit of proportionality
if you increase an object past this point it will remain permanently stretched
power
rate of doing work
power = work done (energy transferred) / time taken
P = E / t
power is measured in watts
one watt = 1 joule of energy transferred per second
momentum and collisions
momentum (kg m/s) = mass (kg) x velocity (m/s)
p = m x v
momentum is a property of moving objects
greater mass and greater it velocity the more momentum an object has
momentum before = momentum after
conservation of momentum
collision or explosion
car design and safety
forces cause change in momentum
large force = faster change in momentum (greater acceleration)
car crash
if someone's momentum changes quick the forces on the body will be large and cause injury
cars designed to safely convert kinetic energy
in a crash there's a big change in momentum over a short time
this means inside the car huge forces could be fatal
this is often by increasing the time over which momentum changes lessens the forces
crumple zones
front and back of the car crumple on impact
cars kinetic energy is converted into other forms when the car body changes shape
increase impact time decrease force by change in momentum
seat belts
stretch slightly
increasing the time
reducing force on the chest
air bags
gradually slow you down
prevent you from hitting hard surfaces in the car
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