ROTATIONAL MOTION and the LAW of GRAVITY

... fixed axis undergoes circular motion.  To analyze the motion is it convenient to set up a fixed reference line. And assume that at time t=0, a cart is on the reference line. ...

module p1: energy for the home

... Recognise that direction is important when describing the motion of an object State and recognise that for two cars travelling on a straight road: their relative speed is lower if they are moving in the same direction; their relative speeds are higher if they are moving in opposite directions ...

Slide 1

... NOTE: This is not required for A2 AQA Physics Consider an object moving at constant speed, v from point A to point B along a circular path of radius r. Over a short time period, δt it covers arc length, δs and sweeps out angle, δθ. As v = δs / δt then δs = v δt. The velocity of the object changes in ...

SPH4U: Lecture 15 Today’s Agenda

Introduction to Circular Motion

Elastic Collision

... SE Solve for any variable using the concept that in an elastic collision, Eki = Ekf SE Explain what has happened in terms of the work done by non-conservative forces to the Eki in an inelastic collision SE Compare and contrast the conservation of momentum and kinetic energy during any ...

Katholieke Hogeschool Limburg - Quantum Spin

Momentum and Impulse1

... Even though they have the same mass, the first bullet has more momentum due to its higher velocity. ...

Teaching Forces and Motion with Confidence I.O.P day @ Rugby

lecture 15 momentum and impulse

Physics

... c. forced damping is accomplished with motors that are programmed to oppose velocity (earthquake protected buildings) resonance a. object can be set to oscillate by an external force—forced vibration ...

Galileo`s Great Discovery: How Things Fall

... roll freely on a frictionless surface. But in this experiment Galileo was seeking only proportions: the relationship between time and distance of fall. Even if the ball was retarded by some unknown amount of friction, the relationship between distance and time after it got going should be affected m ...

Modified True/False Indicate whether the sentence or statement is

... ____ 18. A bullet with a momentum of 2.8 kg⋅m/s [E] is travelling at a speed of 187 m/s. The mass of the bullet is a. 0.015 g d. 67 g b. 0.067 g e. not enough information c. 15 g ____ 19. During collisions, it is often acceptable to ignore the force of gravity on an object. This is because a. the ti ...

science booklet grade 6 - Cairo Modern International School

Unit 2

Final Review - mthslabphysics

Polarization - Manchester HEP

... mineral tourmaline (boron silicate) is the best known of natural dichroic materials. •  Polaroid is produced by heating and stretching a sheet of polyvinyl alcohol, which aligns the long polymeric molecules in the stretch direction. After dipping in an iodine solution, the iodine atoms provide elect ...

PHY_101_NOTE_-REVISED

... Kinematics is the study of the motion of objects without referring to what causes the motion. Motion is a change in position in a time interval. ...

HW4 - due 6 pm Day 8 (Wed. Aug. 6)

Katholieke Hogeschool Limburg

... light from the sun and stars! Apparently light can travel through empty space. But if so, what kind of wave is light? Think of the many forms of wireless communication we use on a daily basis, such as Wi-Fi or the signals of our cell phone or gps networks. They carry information from one place to an ...

Chapter 8 – Momentum, Impulse, and Collisions

... firecracker explodes in the block. A 5 kg piece continues in the original direction at 4 m/s. A 3 kg piece travels in a direction perpendicular to the original direction at 6 m/s. How fast and in what direction does the third piece travel? ...

Energy All

... circular path. The speed of the ball at the top of the circle is 15.0 m/s. If the ball is released at the bottom of the circle, what is its speed upon release? ...

CP7e: Ch. 5 Problems

... A softball pitcher rotates a 0.250-kg ball around a vertical circular path of radius 0.600 m before releasing it. The pitcher exerts a 30.0-N force directed parallel to the motion of the ball around the complete ...

FREE Sample Here

... it that many people who saw the falling objects fall together continued to teach otherwise. Seeing is not always believing. Ideas that are firmly established in one’s thinking are difficult to change. People in science must be prepared to have their thinking challenged often. Point to an object in t ...

Dynamics and Space

... 51. A car of mass 1200 kg experiences friction equal to 500 N when travelling at a certain speed. If the engine force is 1400 N, what will be the car’s acceleration? 52. A car of mass 2000 kg has a total engine force of 4500 N. The frictional drag force acting against the car is 1700 N. What is the ...

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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