Scalar and vector quantities:

Slides:

Advertisements

Similar presentations

WHAT IS FRICTION?. WHAT IS FRICTION? WHAT IS FRICTION? Friction is the force resisting the relative motion of solid surfaces, fluid layers, and material.

Advertisements

Vector v Scalar quantities Scalar A quantity which is fully described by magnitude (size) alone Vector A quantity which is fully described by both magnitude.

Newton’s Laws.

Mechanical Work: More Practice. Gravitational Potential Energy: More Practice.

Motions and Forces. How is speed calculated? The speed of an object can be calculated using this equation: distance travelled time taken speed =

Chapter 4 Work & Energy Dr. Ali.

Motion I Kinematics and Newton’s Laws Basic Quantities to Describe Motion Space (where are you) Space (where are you)

Terminal Velocity D. Crowley, 2008.

Scalar Quantities  Measurements that are fully described by a magnitude (or numerical value) alone.  Examples: Mass- 70kg Speed- 45mph Distance- 100m.

6.3 Gravitational potential energy and gravitational potential

WHAT IS POSITION? LOCATION RELATIVE TO A REFERENCE POINT (FRAME OF REFERENCE)

Name:. Understanding Gravity ____________ is the force of attraction between objects due to their masses. The force of gravity can affect the __________.

Newton’s Laws of Motion Gravity and Motion. Gravity A force of attraction between objects that is due to their masses. A force of attraction between objects.

Motion Speed: average and instantaneous Velocity Acceleration.

Motion Distance Displacement Speed: average and instantaneous Velocity Acceleration.

MOTION & FORCES VOCABULARY MOTION The process of continual change in the physical position of an object (distance) relative to reference point ; With.

Motion in One Dimension Velocity. Motion – A change in position Motion.

You can use distance–time graphs to calculate speed / acceleration. The steeper the gradient, the slower / faster the speed / acceleration. You can use.

Chapter 2.2 Objectives and Vocabulary acceleration deceleration Newton's second law Define and calculate acceleration. Explain the relationship between.

If the sum of all the forces acting on a moving object is zero, the object will (1) slow down and stop (2) change the direction of its motion (3) accelerate.

4.1 Gravitational Force Near Earth

Momentum Momentum = mass x velocity ( Kgm/s ) (kg) (m/s) If an object is moving towards you, your safety will depend on * how massive the object is * how.

Motion I Kinematics and Newton’s Laws Basic Quantities to Describe Motion Motion is about Space (position) and Time (duration) and how we change position.

MOTION TEXT WORK. HOW DO DISTANCE AND DISPLACEMENT DIFFER? Distance describes how far an object has moved; Displacement includes distance and direction.

AQA P2 Topic 1 Motion. Distance/Time Graphs Horizontal lines mean the object is stationary. Straight sloping lines mean the object is travelling at a.

Forces,Motion,Energy and Momentum Revision Mock 2015.

Motion in One Dimension - velocity. Motion – A change in position Motion.

Chapter 3 The Heredity Review Game

Forces of Flight Flight and Space © 2011 Project Lead The Way, Inc.

Starter (2 minutes): A cyclist who has been travelling at a steady speed of 4.0 ms-1 starts to accelerate. If he accelerates at 3.0 ms-2, how long will.

Dynamics and Space Learning Intention You will be able to:

Motion Speed: average and instantaneous Velocity Acceleration.

S4 Physics Forces

Stopping a vehicle.

SPH3U Exam Review Equations of Motion.

Vectors Scalars and Vectors:

Terminal Velocity D. Crowley, 2008.

P2 REVISION – MOTION Describe what is happening in the graph between points: A-B: B-C: C-D: D-E: Using the formula speed = distance time work out the.

AQA Physics P2 Topic 1 Motion.

Chapter 4 Distance and displacements

Gravitational Fields.

Forces of Flight Four Forces of Flight Gateway To Technology

Work, potential and kinetic energy

P5 Spaced Learning Forces.

Physics Intro Quantities Units Vectors Displacement Velocity

Notes 1: Measuring Motion

Vectors Scalars and Vectors:

Forces of Flight.

Distance and displacement

Forces of Flight Flight and Space © 2011 Project Lead The Way, Inc.

Vectors Scalars and Vectors:

Section 1 – Laws of Motion

Acceleration A measure of how quickly the velocity of something is changing. It can be positive if the object is speeding up or negative if it is slowing.

AQA Physics P2 Topic 1 Motion.

Trilogy – Physics – CHAPTER 5 – Forces

Vectors and Scalars Scalars are quantities which have magnitude only

#13 Speed and Momentum. #13 Speed and Momentum.

Motion and Force.

Terminal Velocity D. Crowley, 2008.

Gravity and The Law of Universal Gravitation

Speed Velocity Acceleration Freefall

© Copyright The PiXL Club Ltd, 2017

Speed Velocity Acceleration

EDEXCEL GCSE Forces and their effects

Physics Chapter 5 – Forces– speed and velocity

Physics 5: Forces Section 3: Elasticity 18 Elastic deformation

Presentation transcript:

Scalar and vector quantities: Explain the similarities and differences between scalar and vector quantities. James travels on the M25 from Junction 25 at Enfield to Junction 8 towards Sutton. Explain the journey in terms of distance and displacement. Explain the difference between speed and velocity. A velodrome is a race used in professional cycling. Explain how the speed and velocity of a cyclist changes during a race. Weight: Find out how your weight would differ if you measured it at different point across the Earth’s surface. Explain to the person next to you the difference between weight and mass. Jupiter is approximately 11 times the diameter of the Earth. The gravitational field strength of Jupiter is only 2.5 times greater than that of Earth. Find out why there gravitational field strength of Jupiter is not 11 times greater. Work Done: The American unit of work done is the foot-pound force. The S.I. unit for work done is the joule, J. Find out how to convert from the S.I. unit to the non-standard American unit. The space shuttle enters the Earth’s atmosphere at 17,500 mph. On re-entry the temperature of the space shuttle will exceed 1500 ℃. Find out why the temperature of the space shuttle gets so high on re-entry. Forces and motion: A skydiver jumps out of a plane. The speed of the skydiver changes with time throughout the skydive. Figure 1 shows how the speed of the skydiver changes with time as he falls. Describe fully the motion of the skydiver as they fall from Point A to Point F. In your answer you should calculate the acceleration at each stage. Vehicle Safety: Motorcyclists are 35 times more likely to die in a crash compared to car drivers. Motorcycle crash helmets do help prevent injuries. Explain how crash helmets reduce injuries in terms of momentum. Google recently developed a sticky car paint that will hold a pedestrian that has been hit. Discuss the advantages and disadvantages of this sticky paint. © Copyright The PiXL Club Ltd, 2017 Stopping Distance: The stopping distances in the highway code were written in the 1970’s. Discuss how the design of cars since the 1970’s will have changed the stopping distances from the stated values. Distractions when driving causes crashes. Discuss the reasons why people still use their mobile phones when driving, when mobile phone use was responsible for 492 crashes in 2014 alone.