Physics -
What is the simplest type of motion?
Uniform motion
Displacement
Vector Quantity, measurement of the change in distance and the direction or the change in position of an object from a reference point. Direction is indicated.
What is the work input or energy input?
When a force is applied to move an object through a distance, work is done on the object (W=Fd)
When would work input equal work output?
When there is an absence of outside forces (friction)
what are the three conditions for work to be done on an object?
1) There must be movement 2) There must be force 3) The force and the distance the object travels must be in the same direction
What are the two ways positive acceleration occurs?
1) when the change in both the magnitude of the velocity and the direction are positive 2) when the change in both the magnitude of the velocity and the direction are negative
what are the two ways negative acceleration occurs?
1) when the change in the magnitude of the velocity is negative while the direction is positive 2) when the change in the magnitude of the velocity is positive and the direction is negative
Scalar Quantity
A scalar quantity is one that only indicates "how much"(the magnitude) of the quantity.
Uniform Motion
A term used to describe an object that is travelling at a constant rate of motion in a straight line.
Average Speed
A term used to describe uniform motion that involves travelling a distance in a specified time. Average Speed = distance travelled/ time elapsed v = d/t or v = df - di/ tf - ti
Vector Quantity
A vector Quantity indicates "how much" (the magnitude) and the direction of the quantity. If something is a vector quantity you must determine the magnitude and the direction. Vector, in physics, a quantity that has both magnitude and direction. It is typically represented by an arrow whose direction is the same as that of the quantity and whose length is proportional to the quantity's magnitude.
What is the most common type of motion?
Accelerated motion
Motion
An object occurs when an imaginary line joining the object to the reference point changes in length or direction or both
Law of conservation of energy
Energy can never be created nor destroyed but can be converted from on form to another
Energy
Energy is the ability to do work. Work and energy are the same thing.
Distance travelled
Scalar Quantity, measurement of the change in distance of an object moving from a starting reference point
What is the difference between speed and velocity?
Speed is a scalar quantity and velocity is a vector quantity
Efficiency
The ration of the useful energy output to the total energy input
First law of thermodynamics
The total amount of energy, including heat, in a system and its surroundings always remans constant
Work
a measure of the amount of energy transferred from one object to another when an object moves against an opposing force or the speed of an object increases; calculated by multiplying the force acting on an object by the distance the object travels W = force x distance the object travels (w =fd)
Acceleration
change in velocity during a specific time interval, type of motion, vector quantity acceleration = change in velocity/ time interval a = v/t where v = vf - vi vf is the final velocity and vi is the starting velocity
Velocity
describes both the rate of motion and the direction of an object average velocity = displacement/ time elapsed
What are the two types of graphs that can be used to describe uniform motion?
distance-time graph and a speed-time graph
kinetic energy
energy due to the motion of an object
Potential Energy
energy due to the position of an object relative to another object (eg; gravitational potential energy results from an objects position relative to Earths surface)
Second law of thermodynamics
heat flows naturally from hot to cold objects and in the process can be made to do work; during this process some energy is always lost as heat
Sustainable
process that will not compromise future generations
Force
push or pull applied to an object; measured in newtons
Magnitude
size, extent of something
heat
the transfer of thermal energy
Cogeneration
using the waste energy from one process to power another process