The University of Kalahari Presents: High School
The University of Kalahari Presents: High School

L (length), T (time)
L (length), T (time)

... the pendulum bob m , the gravitational acceleration g , and the initial angular amplitude of the bob  0 are all possible quantities that may enter into the formula for the period of the swing. Have we included every possible quantity? We can never be sure but let’s first work with this set and if w ...
Lab 5
Lab 5

IB Phys Y1
IB Phys Y1

Old 105 exam 3 - solutions. doc
Old 105 exam 3 - solutions. doc

... Problem 3. A car is on a ferry boat and both are at rest. The car accelerates forward by pushing backward on the ferry. In doing so the magnitude of the car’s momentum changes by a certain amount, and that of the ferry changes by [3?] ______ a. a larger amount b. the same amount c. a smaller amount ...
Mechanics Problems Review Packet
Mechanics Problems Review Packet

Spinning Soccer Ball Trajectory
Spinning Soccer Ball Trajectory

... conditions. That is, we solve the dynamical system given my equations (9)-(11) subject to ω(0). When R is relatively large, or when the ball is “rough", t he gravity term dominates the solution for the vertical path and, once the ball has reached its maximum height (here there is only one local maxi ...
Momentum
Momentum

... Jim strikes a 0.058-kg golf ball with a force of 272 N and gives it a velocity of 62.0 m/s. How long was the club in contact with the ball? (0.013 s) A force of 186 N acts on a 7.3-kg bowling ball for 0.40 s. What is the change in velocity for the bowling ball? (10.2 m/s) A 0.24-kg volleyball approa ...
unit 6: gravity and projectile motion
unit 6: gravity and projectile motion

Physics 18 Spring 2011 Homework 3
Physics 18 Spring 2011 Homework 3

... 3. Seat belts and air bags save lives by reducing the forces exerted on the driver and passengers in an automobile collision. Cars are designed with a “crumple zone” in the front of the car. In the event of an impact, the passenger compartment decelerates over a distance of about 1 m as the front o ...
Internal And External Forces: Every body of finite size is made of
Internal And External Forces: Every body of finite size is made of

Chapter 4 Conservation laws for systems of particles
Chapter 4 Conservation laws for systems of particles

Physics Definition
Physics Definition

...  Combining these results, we find that in the simple case where with just one force in just one direction, the acceleration is given by: Acceleration = Force / Mass  Rearranging the equation we arrive at Newton’s Second Law: ...
PowerPoint Presentation - Newton`s Laws of
PowerPoint Presentation - Newton`s Laws of

... Newton’s First Law is also called the Law of Inertia Inertia: the tendency of an object to resist changes in its state of motion The First Law states that all objects have inertia. The more mass an object has, the more inertia it has (and the harder it is to change its motion). ...
Ch 8 – Oscillation
Ch 8 – Oscillation

... oscillator goes through. Frequency is measured in "hertz" which means cycles per second. • Period and frequency are closely connected; they contain the same information. T = 1/f f = 1/T ...
Std. 12 Physics, MCQs
Std. 12 Physics, MCQs

Classical Mechanics - Mathematical Institute Course Management
Classical Mechanics - Mathematical Institute Course Management

... In particular Newton’s laws require one to work in an inertial frame in Cartesian coordinates, which is often inconvenient. The Lagrangian and Hamiltonian formalisms, on the other hand, are coordinate independent, and provide a more elegant and computationally efficient framework in which to work. F ...
Chapter 6 - TeacherWeb
Chapter 6 - TeacherWeb

... But air resistance also depends on the _____________ at which the object falls. The faster it falls, the greater the __________________ it encounters. An object will continue to __________________ as it falls until the upward force of ____________________ equals the downward force of _______________ ...
Physics on Deck - Seneca High School
Physics on Deck - Seneca High School

... An object of mass 15.0 kg and a velocity of 2.00 m/s collides with a stationary object having the same mass. After the collision, the first object moves along a line that makes an angle of 400 to the right of the original path. The second object moves at an angle of 100o to the left of the path of t ...
f - rcasao
f - rcasao

Newton`s Laws and Force Review Key
Newton`s Laws and Force Review Key

... c. will continue moving in a straight line unless acted on by an outside force d. that is not moving will never move unless a force acts on it e. all of the above 2. The law of inertia applies to _____. a. moving objects b. objects at rest c. both moving and nonmoving objects 3. After a cannon ball ...
Newton`s Laws of Motion Units of Force
Newton`s Laws of Motion Units of Force

... Weight and Mass: The weight of an object is equal to the mass of the object times the force of gravity. W = mg, where g = 9.8 m/s² The mass is a measure of how much matter makes up the object, and it is constant anywhere in the universe. The weight of an object will vary if the force of gravity vari ...
Newtons Law of Motion
Newtons Law of Motion

Mechanics Notes II Forces, Inertia and Motion The mathematics of
Mechanics Notes II Forces, Inertia and Motion The mathematics of

... one would need three initial conditions to determine x(t) for times in the future. If one believes that only the initial position, x0 , and initial velocity, v0 , are necessary to determine x(t) for future times, then there can be at most second derivatives of x(t) in the equations of motion. Under ...
solutions to Midterm 2 - University of California, Berkeley
solutions to Midterm 2 - University of California, Berkeley

Kinematics