Mechanics Y11 Jeopardy Template

Motion

Forces

Forces II

Pressure

Energy

Work & Power

Equations

100

Velocity

How fast something is moving measured in m/s

100

Newtons

Units of force

100

Force

A push/pull

100

m²

Units for measuring area

100

Joules

Units for energy

100

Joules

Units for work

100

V = d/t

Velocity = distance / time

200

Acceleration

Change in speed caused by unbalanced forces measured in m/s²

200

Mass

Amount of matter that makes up an object measured in Kg

200

Net force

Resultant force left over once opposing forces have been cancelled out

200

Pa or N/Kg

The two units used for pressure

200

Kinetic energy - the type of energy that moving objects have

200

Work

A gain or loss of energy due to a force acting on an object over a distance

200

P = W/t

Power = Work/time

300

Constant Speed

No change in velocity, straight line on a d/t graph, flat line on a V/t graph, caused by balanced forces

300

Weight

Force acting downwards on an object due to the interaction of gravity on its mass measured in Newtons

300

F=ma

Equation for calculating net force - depends on mass and acceleration

300

F=mg

Equation for calculating weight force in Newtons

300

Gravitational potential energy, objects store this when they are place somewhere high

300

J/s or Watts

The two units for Power

300

g = 10N/Kg or 10m/s²

strength of gravity on Earth

400

Deceleration

Decrease in speed measured in m/s²caused by net force opposing direction of motion

400

Friction

A force that opposes motion/acts against motion due to a rough surface or high surface area

400

Unbalanced forces

When net force is greater than 0N this causes an object to accelerate

400

P=F/A

Equation for calculating pressure, force must be in Newtons and area must be in m²

400

Conservation of Energy

Energy is never created or destroyed it gets transformed from one type of energy to another

400

Power

Amount of work done per second

400

Ek = 1/2 m V²

Kinetic energy = half x mass x Velocity squared

500

Terminal Velocity

When a falling object falls at constant speed due to balanced forces (air resistance = weight force)

500

Air resistance

A kind of friction that pushes against falling objects that increases as the object speeds up - more particles of air hit the object per second as it falls faster

500

Balanced Forces

When net force = 0N because the opposing forces are equal and opposite so cancel out. This causes an object to stay in constant motion or stay stationary

500

Decreases pressure

Increasing surface area and/or decreasing force

500

Ep=Ek

Assumption used to calculate the speed of a falling object at the end of its fall

500

Increases power

More work done over a shorter time

500

W = Fd

Work = Force x distance