Unit 4 Objectives: Circular Motion Standard: SP1. Students will

... the rope affect the motion (velocity) of the object?  The object’s velocity would be slower b/c it wouldn’t need to go as fast to get around the circle b/c the radius is smaller.  For example – Use the 1’s rule to show this v = 2πr/t If you assume that the radius of the object is 1 m to begin with ...

Sample Exam 3

... a. infrasonic sound. b. ultrasonic sound. c. both of these ...

Integrated Physical Science: Semester 2 Exam Review

... Terminal velocity is the maximum speed a falling object reaches. It occurs when the force down (object weight) is equal to the force of air resistance up. The higher the mass, the higher the terminal velocity. The greater the surface area the lower the terminal velocity 2. What is the formula for ac ...

Sample Midterm 1

Phys 102 Tutorial #7

... form U  3x 3 y  7 x . Find the force that acts at the point (x, y). 8. The potential energy of a system of two particles separated by a distance r is given by U(r) = A/r, where A is a constant. Find the radial force Fr that each particle exerts on the other. 9. A car stopped for a traffic signal. ...

3. To every action, there is an equal and opposite reaction, i.e.

... This is an extremely important topic, because the only things we can learn about objects and phenomena outside our solar system are learned by analyzing the light they send us. In a sense astronomy is all about how to collect, analyze, and interpret light. Can consider light as waves or as particles ...

PDF version

Laws of Thermodynamics

... d. Doppler Effect- change in frequency due to relative motion of source and detector. ...

Ch. 24 Electromagnetic Waves

1994 AAPT/Metrologic Physics Bowl Exam

... Answer sheet: Enter your information and answers on the answer sheet provided. Be sure to use a #2 pencil, fill the area completely, and make no stray marks on the sheet. In the indicated spaces, write in and encode your name (last name first). In the block labeled "IDENTIFICATION NUMBER," write in ...

P5_Space_for_Reflection

π π π λ ρ ρ ρ ρ ρ

Chapter 6 Homework

... You run a race with a friend. At first you each have the same kinetic energy, but she is running faster than you are. When you increase your speed by 25 percent, you are running at the same speed she is. If your mass is 85 kg what is her mass? ...

1 Speed of light is the maximal possible speed 2 Adding velocities

Solution - faculty.ucmerced.edu

Final Exam Review

... Your final exam grade will be determined by the following criteria: 1. Written examination (70%) 2. Electronic Project (30%) You must take the exam on the specified date scheduled. No make-ups will be allowed unless special circumstances prevail. Question Types Objective (M/C; Fill in the Blanks; TF ...

First Semester Info and Final Review

... the system must be under the influence of gravity the center of mass must have constant velocity a net external force must be acting on the system none of the above ...

Topic 2.1 ppt

... from a particular reference point but also the direction from that reference point In many situations it is measured from the origin of a Cartesian co-ordinate system ...

Paper Reference(s)

in m/s - Wildern VLE

... Optical fibres can be used for _________ or ENDOSCOPES (medical devices that are used to see inside the body) Words to use – communications, internally, large, transparent ...

Lecture 23 - Purdue Physics

... • Electromagnetic waves carry energy • A source of waves is characterized by its power (the rate at which it radiates energy) • If the source is isotropic, the energy spreads out uniformly in all directions, over the surface of a sphere – Surface area of a sphere of radius is = 4 ...

Lecture 8 Final (with examples)

Relativistic Dynamics

Standard Grade work booklet

... A hiker covers a distance of 1500 m in 20 minutes. What is the average speed of the hiker? Question 4 How many seconds would it take a lorry travelling at a constant speed of 20 m/s to cover a distance of 30 km? Question 5 How many seconds would it take a lorry travelling at a constant speed of 20 m ...

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Faster-than-light

Faster-than-light (also superluminal or FTL) communication and travel refer to the propagation of information or matter faster than the speed of light.Under the special theory of relativity, a particle (that has rest mass) with subluminal velocity needs infinite energy to accelerate to the speed of light, although special relativity does not forbid the existence of particles that travel faster than light at all times (tachyons).On the other hand, what some physicists refer to as ""apparent"" or ""effective"" FTL depends on the hypothesis that unusually distorted regions of spacetime might permit matter to reach distant locations in less time than light could in normal or undistorted spacetime. Although according to current theories matter is still required to travel subluminally with respect to the locally distorted spacetime region, apparent FTL is not excluded by general relativity.Examples of FTL proposals are the Alcubierre drive and the traversable wormhole, although their physical plausibility is uncertain.

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Faster-than-light