PHYS-1600/2000PHYS-1600/2000 I1 Velocity and SpeedNEBRASKA WESLEYAN UNIVERSITYFALL 2014-2015 DEAN SIEGLAFF NATHANIEL CUNNINGHAM of 14 1 Today’s physics.

Slides:

Advertisements

Similar presentations

PHYS-1700/2100PHYS-1700/2100 I2 The Electric FieldNEBRASKA WESLEYAN UNIVERSITYSPRING DEAN SIEGLAFF NATHANIEL CUNNINGHAM BOB FAIRCHILD of 9 1.

Advertisements

PHYS-1700/2100PHYS-1700/2100 II4 Series and Parallel ResistanceNEBRASKA WESLEYAN UNIVERSITYSPRING DEAN SIEGLAFF NATHANIEL CUNNINGHAM BOB FAIRCHILD.

LINEAR MOTION Chapter 4.

PHYS-1700/2100PHYS-1700/2100 Course Introduction And Electric ChargeNEBRASKA WESLEYAN UNIVERSITYSPRING DEAN SIEGLAFF NATHANIEL CUNNINGHAM BOB.

PHYS-1700/2100PHYS-1700/2100 I6 CapacitanceNEBRASKA WESLEYAN UNIVERSITYSPRING DEAN SIEGLAFF NATHANIEL CUNNINGHAM BOB FAIRCHILD of 9 1 [Insert.

PHYS-1700/2100PHYS-1700/2100 II5 Analyzing Resistor NetworksNEBRASKA WESLEYAN UNIVERSITYSPRING DEAN SIEGLAFF NATHANIEL CUNNINGHAM BOB FAIRCHILD.

PHYS-1600/2000PHYS-1600/2000 I5 Position VectorNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of 14 1 Today’s Physics Puzzler:

PHYS-1600/2000PHYS-1600/2000 I2 Graphing Constant Velocity MotionNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of 14 1.

PHYS-1600/2000PHYS-1600/2000 IV6 Angular Energy and MomentumNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of 18 1 Puzzler:

PHYS-1600/2000PHYS-1600/2000 III1 Work and EnergyNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of 18 1 Puzzler: A monkey.

PHYS-1600/2000PHYS-1600/2000 II2 Free Body AnalysisNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of 12 1 Today’s Puzzler:

Does the odometer of a car measure distance traveled or displacement? 1.Distance traveled 2.displacement 3.neither 4.both.

PHYS-1600/2000PHYS-1600/2000 I3 AccelerationNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of 14 1 Today’s Puzzler: Two.

Uniform Motion Speed & Velocity.

PHYS-1700/2100PHYS-1700/2100 II1 EMF and Electrical CurrentNEBRASKA WESLEYAN UNIVERSITYSPRING DEAN SIEGLAFF NATHANIEL CUNNINGHAM BOB FAIRCHILD.

Displacement and Velocity

PHYS-101PHYS-101 III3 Dissipation of EnergyNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF BOB FAIRCHILD NATHANIEL CUNNINGHAM of 10 1 ANNOUNCEMENTS.

Modeling Uniform Motion We believe that mere movement is life, and that the more velocity it has, the more it expresses vitality. -- Rabindranath Tagore.

Chapter 1, Section 1 Speed and Motion. Recognizing Motion 1.What’s happening to the distance between the bus and the light posts as the bus is moving?

EQ 1: What is motion? How do you know you are in motion?

Chapter 2, Part 3 September 7, A ball is thrown downward (not dropped) from the top of a tower. After being released, its downward acceleration.

California State Standards Review

Distance and Displacement

Velocity and Speed.

PHYS-1600/2000PHYS-1600/2000 I7 Motion of a ProjectileNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of 14 1 Today’s Puzzler:

PHYS-1600/2000PHYS-1600/2000 II5 Internal ForcesNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of 11 1 [Insert Puzzler Here]

PHYS-1600/2000PHYS-1600/2000 I6 Curved Path MotionNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of 14 1 Today’s Puzzler:

VECTORSVECTORS Describing paths. VECTOR: line segment with… i. Direction(an angle) ii. Magnitude||v|| = length of vector (distance)

MECHANICS MECHANICS – The branch of Physics that deals with the motion of objects and the forces that change this motion. Kinematics – The motion part.

Instructional Objectives : 1.Research on motion and force 2. Research using virtual investigations Homework: Monday- Notes Ch.11) Vocabulary Tuesday-

Chapter 11 Motion.

Motion in One DimensionSection 1 Preview Section 1 Displacement and VelocityDisplacement and Velocity Section 2 AccelerationAcceleration Section 3 Falling.

T = 5 x = 9 x = 6/5 Solve ANSWER How long would it take you To travel 2 miles going 60mph?. 2 minutes.

PHYS-1600/2000PHYS-1600/2000 II7 Gravity and Orbital MotionNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of 15 1 How much.

PHYS-1600/2000PHYS-1600/2000 IV2 Angular and Linear VariablesNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of 11 1 [Insert.

PHYS-1700/2100PHYS-1700/2100 II8 The RC Series CircuitNEBRASKA WESLEYAN UNIVERSITYSPRING DEAN SIEGLAFF NATHANIEL CUNNINGHAM BOB FAIRCHILD of.

PHYS-1700/2100PHYS-1700/2100 II7 Series and Parallel CapacitanceNEBRASKA WESLEYAN UNIVERSITYSPRING DEAN SIEGLAFF NATHANIEL CUNNINGHAM BOB FAIRCHILD.

PHYS-1600/2000PHYS-1600/2000 IV1 Angular Velocity and AccelerationNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of 11 1.

PHYS-1700/2100PHYS-1700/2100 III6 Electromagnetic InductionNEBRASKA WESLEYAN UNIVERSITYSPRING DEAN SIEGLAFF NATHANIEL CUNNINGHAM BOB FAIRCHILD.

1 Chapter 2 Motion F. Morales. 2 CHAPTER OUTLINE  Motion Motion  Vectors Vectors  History of Motion History of Motion  Speed & Velocity Speed & Velocity.

PHYS-1700/2100PHYS-1700/2100 II3 Resistivity and ResistanceNEBRASKA WESLEYAN UNIVERSITYSPRING DEAN SIEGLAFF NATHANIEL CUNNINGHAM BOB FAIRCHILD.

PHYS-1700/2100PHYS-1700/2100 III5 Ampere’s LawNEBRASKA WESLEYAN UNIVERSITYSPRING DEAN SIEGLAFF NATHANIEL CUNNINGHAM BOB FAIRCHILD of 9 1 [Insert.

Acceleration. The pitcher throws. The ball speeds toward the batter. Off the bat it goes. It’s going, going, gone! A home run! Before landing, the ball.

1. Speed, Velocity, & Acceleration 2 You know a car is in motion if you see it in one place 3 then in another place in relation to an object.

Cutnell/Johnson Physics 8th edition Reading Quiz Questions

PHYS-101PHYS-101 I8 Graphing the Motion of a ProjectileNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF BOB FAIRCHILD NATHANIEL CUNNINGHAM of 8.

Distance V Displacement DISTANCE: The length of a path between two points DISPLACEMENT: Direction from a starting point and the length of a straight line.

Speed and Velocity Speed and Velocity Chapter 9 sec 2.

Unit 2 1 Dimensional Motion.  Mechanics – the study of how objects move and respond to external forces  Kinematics – study of motion with no concern.

Speed, Velocity, and Acceleration. Goals: To investigate what is needed to describe motion completely. To compare and contrast speed and velocity. To.

- Review the concepts of speed and average speed - Investigate acceleration and non- uniform motion - Learn how different types of motion relate to velocity.

PHY131H1S - Class 8 Today: Circular Motion Rotation.

Motion in One Dimension. Displacement  x = x f - x i.

Speed & Velocity. Speed – is the ratio of the distance an object moves to the amount of time the object moves How far an object moves over a period of.

1/29/03 Physics 103, Spring 2004, U. Wisconsin 1 Physics 103: Lecture 3 Position & Velocity with constant Acceleration l Today’s lecture will be on kinematic.

Motion, Speed, & Velocity. Motion Motion is a change in position (relative to a reference point) *reference point- stationary (still) object.

Acceleration Measuring a change in velocity. An object accelerates when it speeds up, slows down or changes direction An object accelerates when it speeds.

You and your dog go for a walk to the park. On the way, your dog takes many side trips to chase squirrels or examine fire hydrants. When you arrive at.

2 pt 3 pt 4 pt 5pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2pt 3 pt 4pt 5 pt 1pt 2pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4pt 5 pt 1pt Distance Displacement Speed Acceleration.

Warm-up This past weekend I went to Ocean City, NJ which was a 60 mile drive and returned on Monday.” How far did I travel this weekend?”

Motion ONE DIMENSION POSITION: FRAME of REFERENCE X

Speed and Velocity Notes

How would you describe how fast an object is moving?

Motion Objectives: Displacement, velocity, acceleration

Unit 5 Relationships among forms of energy

Book 2 Section 1.3 Speed and velocity

Instantaneous position – the position at a particular instant.

Speed & Velocity.

Solve ANSWER x = 9 ANSWER t =

Motion: Changing Position.

Presentation transcript:

PHYS-1600/2000PHYS-1600/2000 I1 Velocity and SpeedNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of 14 1 Today’s physics puzzler: You’re holding a bowling ball, while sitting in a boat, which is floating in a swimming pool. When you drop the ball overboard, the water level in the pool will: 1.rise a little. 2.fall a little. 3.stay the same. Go ahead and answer with your clicker!

PHYS-1600/2000PHYS-1600/2000 I1 Velocity and SpeedNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of 14 2 Announcements:

PHYS-1600/2000PHYS-1600/2000 I1 Velocity and SpeedNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of of 3 Jogger B runs along a circular track at constant speed from point 1 to point 2. Jogger A runs at constant speed along the straight line joining 1 and 2. Both joggers leave 1 simultaneously, and arrive at 2 simultaneously. A’s speed is: 1.greater than B’s. 2.equal to B’s. 3.less than B’s. 4.incomparable to B’s without more information. PATH OF B PATH OF A 12

PHYS-1600/2000PHYS-1600/2000 I1 Velocity and SpeedNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of of 3 Jogger B runs along a circular track at constant speed from point 1 to point 2. Jogger A runs at constant speed along the straight line joining 1 and 2. Both joggers leave 1 simultaneously, and arrive at 2 simultaneously. The magnitude of A’s average velocity is: 1.greater than that for B. 2.equal to that for B. 3.less than that for B. 4.incomparable to that for B without more information. PATH OF B PATH OF A 12

PHYS-1600/2000PHYS-1600/2000 I1 Velocity and SpeedNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of of 3 A bicyclist follows the bike path starting at point 1 heading east at first. The path eventually leads back around to point 1. If the path length is 5 miles, and the cyclist completes the trip in 30 min, then the magnitude of the cyclist’s average velocity would be: 1.15 mph. (mph = miles/hour) 2.10 mph. 3.5 mph. 4.0 mph. PATH OF CYCLIST 1

PHYS-1600/2000PHYS-1600/2000 I1 Velocity and SpeedNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of 14 6 Announcements:

PHYS-1600/2000PHYS-1600/2000 I1 Velocity and SpeedNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of 14 7 PREFLIGHT #1

PHYS-1600/2000PHYS-1600/2000 I1 Velocity and SpeedNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of 14 8 Etc. PREFLIGHT #2

PHYS-1600/2000PHYS-1600/2000 I1 Velocity and SpeedNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of 14 9 EXIT #1

PHYS-1600/2000PHYS-1600/2000 I1 Velocity and SpeedNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of EXIT #2

PHYS-1600/2000PHYS-1600/2000 I1 Velocity and SpeedNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of of 3 Jogger B runs along a circular track at constant speed from point 1 to point 2. Jogger A runs at constant speed along the straight line joining 1 and 2. Both joggers leave 1 simultaneously, and arrive at 2 simultaneously. A’s speed is: 1.greater than B’s. 2.equal to B’s. 3.less than B’s. 4.incomparable to B’s without more information. PATH OF B PATH OF A 12

PHYS-1600/2000PHYS-1600/2000 I1 Velocity and SpeedNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of of 3 Jogger B runs along a circular track at constant speed from point 1 to point 2. Jogger A runs at constant speed along the straight line joining 1 and 2. Both joggers leave 1 simultaneously, and arrive at 2 simultaneously. The magnitude of A’s average velocity is: 1.greater than that for B. 2.equal to that for B. 3.less than that for B. 4.incomparable to that for B without more information. PATH OF B PATH OF A 12

PHYS-1600/2000PHYS-1600/2000 I1 Velocity and SpeedNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of of 3 A bicyclist follows the bike path starting at point 1 heading east at first. The path eventually leads back around to point 1. If the path length is 5 miles, and the cyclist completes the trip in 30 min, then the magnitude of the cyclist’s average velocity would be: 1.15 mph. (mph = miles/hour) 2.10 mph. 3.5 mph. 4.0 mph. PATH OF CYCLIST 1

PHYS-1600/2000PHYS-1600/2000 I1 Velocity and SpeedNEBRASKA WESLEYAN UNIVERSITYFALL DEAN SIEGLAFF NATHANIEL CUNNINGHAM of PROJECTION SCREEN HAND IN TODAY’S ACTIVITY SHEETS 6666