AS Level Physics Kinematics
You Might Also Like
O Levels Elastic Deformation
FSc part 1 Physics book 1 Chapter 7 Oscillations
Class 11 & 12 KPK Physics Practical
SSS10 Physical
SSS 2 Physics
Year 10 Physical
SS2 Physics
Year 1 Physical
SS3 Basic Electronics
Geography
SS2 Basic Electronics
Quantum Mechanics
Comments
10 Comments
Link to our latest notes and resources: https://drive.google.com/drive/u/2/folders/15FiTDXvqn9Dro7UmuRhn4fVtonBgy6TM 2 Kinematics 2.1 Equations of motion Candidates should be able to: 1 define and use distance, displacement, speed, velocity and acceleration 2 use graphical methods to represent distance, displacement, speed, velocity and acceleration 3 determine displacement from the area under a velocity–time graph 4 determine velocity using the gradient of a displacement–time graph 5 determine acceleration using the gradient of a velocity–time graph 6 derive, from the definitions of velocity and acceleration, equations that represent uniformly accelerated motion in a straight line 7 solve problems using equations that represent uniformly accelerated motion in a straight line, including the motion of bodies falling in a uniform gravitational field without air resistance 8 describe an experiment to determine the acceleration of free fall using a falling object 9 describe and explain
Link to our latest notes and resources: https://drive.google.com/drive/u/2/folders/15FiTDXvqn9Dro7UmuRhn4fVtonBgy6TM 2 Kinematics 2.1 Equations of motion Candidates should be able to: 1 define and use distance, displacement, speed, velocity and acceleration 2 use graphical methods to represent distance, displacement, speed, velocity and acceleration 3 determine displacement from the area under a velocity–time graph 4 determine velocity using the gradient of a displacement–time graph 5 determine acceleration using the gradient of a velocity–time graph 6 derive, from the definitions of velocity and acceleration, equations that represent uniformly accelerated motion in a straight line 7 solve problems using equations that represent uniformly accelerated motion in a straight line, including the motion of bodies falling in a uniform gravitational field without air resistance 8 describe an experiment to determine the acceleration of free fall using a falling object 9 describe and explain
Link to our latest notes and resources: https://drive.google.com/drive/u/2/folders/15FiTDXvqn9Dro7UmuRhn4fVtonBgy6TM 2 Kinematics 2.1 Equations of motion Candidates should be able to: 1 define and use distance, displacement, speed, velocity and acceleration 2 use graphical methods to represent distance, displacement, speed, velocity and acceleration 3 determine displacement from the area under a velocity–time graph 4 determine velocity using the gradient of a displacement–time graph 5 determine acceleration using the gradient of a velocity–time graph 6 derive, from the definitions of velocity and acceleration, equations that represent uniformly accelerated motion in a straight line 7 solve problems using equations that represent uniformly accelerated motion in a straight line, including the motion of bodies falling in a uniform gravitational field without air resistance 8 describe an experiment to determine the acceleration of free fall using a falling object 9 describe and explain
Link to our latest notes and resources: https://drive.google.com/drive/u/2/folders/15FiTDXvqn9Dro7UmuRhn4fVtonBgy6TM 2 Kinematics 2.1 Equations of motion Candidates should be able to: 1 define and use distance, displacement, speed, velocity and acceleration 2 use graphical methods to represent distance, displacement, speed, velocity and acceleration 3 determine displacement from the area under a velocity–time graph 4 determine velocity using the gradient of a displacement–time graph 5 determine acceleration using the gradient of a velocity–time graph 6 derive, from the definitions of velocity and acceleration, equations that represent uniformly accelerated motion in a straight line 7 solve problems using equations that represent uniformly accelerated motion in a straight line, including the motion of bodies falling in a uniform gravitational field without air resistance 8 describe an experiment to determine the acceleration of free fall using a falling object 9 describe and explain
Link to our latest notes and resources: https://drive.google.com/drive/u/2/folders/15FiTDXvqn9Dro7UmuRhn4fVtonBgy6TM 2 Kinematics 2.1 Equations of motion Candidates should be able to: 1 define and use distance, displacement, speed, velocity and acceleration 2 use graphical methods to represent distance, displacement, speed, velocity and acceleration 3 determine displacement from the area under a velocity–time graph 4 determine velocity using the gradient of a displacement–time graph 5 determine acceleration using the gradient of a velocity–time graph 6 derive, from the definitions of velocity and acceleration, equations that represent uniformly accelerated motion in a straight line 7 solve problems using equations that represent uniformly accelerated motion in a straight line, including the motion of bodies falling in a uniform gravitational field without air resistance 8 describe an experiment to determine the acceleration of free fall using a falling object 9 describe and explain
Link to our latest notes and resources: https://drive.google.com/drive/u/2/folders/15FiTDXvqn9Dro7UmuRhn4fVtonBgy6TM 2 Kinematics 2.1 Equations of motion Candidates should be able to: 1 define and use distance, displacement, speed, velocity and acceleration 2 use graphical methods to represent distance, displacement, speed, velocity and acceleration 3 determine displacement from the area under a velocity–time graph 4 determine velocity using the gradient of a displacement–time graph 5 determine acceleration using the gradient of a velocity–time graph 6 derive, from the definitions of velocity and acceleration, equations that represent uniformly accelerated motion in a straight line 7 solve problems using equations that represent uniformly accelerated motion in a straight line, including the motion of bodies falling in a uniform gravitational field without air resistance 8 describe an experiment to determine the acceleration of free fall using a falling object 9 describe and explain
Link to our latest notes and resources: https://drive.google.com/drive/u/2/folders/15FiTDXvqn9Dro7UmuRhn4fVtonBgy6TM 2 Kinematics 2.1 Equations of motion Candidates should be able to: 1 define and use distance, displacement, speed, velocity and acceleration 2 use graphical methods to represent distance, displacement, speed, velocity and acceleration 3 determine displacement from the area under a velocity–time graph 4 determine velocity using the gradient of a displacement–time graph 5 determine acceleration using the gradient of a velocity–time graph 6 derive, from the definitions of velocity and acceleration, equations that represent uniformly accelerated motion in a straight line 7 solve problems using equations that represent uniformly accelerated motion in a straight line, including the motion of bodies falling in a uniform gravitational field without air resistance 8 describe an experiment to determine the acceleration of free fall using a falling object 9 describe and explain
Link to our latest notes and resources: https://drive.google.com/drive/u/2/folders/15FiTDXvqn9Dro7UmuRhn4fVtonBgy6TM 2 Kinematics 2.1 Equations of motion Candidates should be able to: 1 define and use distance, displacement, speed, velocity and acceleration 2 use graphical methods to represent distance, displacement, speed, velocity and acceleration 3 determine displacement from the area under a velocity–time graph 4 determine velocity using the gradient of a displacement–time graph 5 determine acceleration using the gradient of a velocity–time graph 6 derive, from the definitions of velocity and acceleration, equations that represent uniformly accelerated motion in a straight line 7 solve problems using equations that represent uniformly accelerated motion in a straight line, including the motion of bodies falling in a uniform gravitational field without air resistance 8 describe an experiment to determine the acceleration of free fall using a falling object 9 describe and explain
Link to our latest notes and resources: https://drive.google.com/drive/u/2/folders/15FiTDXvqn9Dro7UmuRhn4fVtonBgy6TM 2 Kinematics 2.1 Equations of motion Candidates should be able to: 1 define and use distance, displacement, speed, velocity and acceleration 2 use graphical methods to represent distance, displacement, speed, velocity and acceleration 3 determine displacement from the area under a velocity–time graph 4 determine velocity using the gradient of a displacement–time graph 5 determine acceleration using the gradient of a velocity–time graph 6 derive, from the definitions of velocity and acceleration, equations that represent uniformly accelerated motion in a straight line 7 solve problems using equations that represent uniformly accelerated motion in a straight line, including the motion of bodies falling in a uniform gravitational field without air resistance 8 describe an experiment to determine the acceleration of free fall using a falling object 9 describe and explain
Link to our latest notes and resources: https://drive.google.com/drive/u/2/folders/15FiTDXvqn9Dro7UmuRhn4fVtonBgy6TM 2 Kinematics 2.1 Equations of motion Candidates should be able to: 1 define and use distance, displacement, speed, velocity and acceleration 2 use graphical methods to represent distance, displacement, speed, velocity and acceleration 3 determine displacement from the area under a velocity–time graph 4 determine velocity using the gradient of a displacement–time graph 5 determine acceleration using the gradient of a velocity–time graph 6 derive, from the definitions of velocity and acceleration, equations that represent uniformly accelerated motion in a straight line 7 solve problems using equations that represent uniformly accelerated motion in a straight line, including the motion of bodies falling in a uniform gravitational field without air resistance 8 describe an experiment to determine the acceleration of free fall using a falling object 9 describe and explain
