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P2: Forces, Springs, & Pressure Forces Notes • A force is any kind of push or pull on an object – SI unit is in Newton (N) • A force has both DIRECTION and MAGNITUDE (vector!) • Forces can: – change the speed of an object – change the direction of movement of an obje ct – change the size or shape of an object Types of Forces • BALANCED – Equal forces acting in opposite directions – Cancel exactly so zero NET (total) force is produced Image obtained from: http://sites.wff.nasa.gov/code810/edu_newton.html Types of Forces • UNBALANCED – Unequal forces acting in opposite directions – Object accelerates in the direction of the unbalanced force – A larger unbalanced force = larger acceleration Image obtained from: http://www.bbc.co.uk/schools/ks3bitesize/science/images/unbalancedforces.gif Simulation • Go to: http://phet.colorado.edu/ • In the search box: forces and motion – Questions to answer with a partner • How much force must be applied to the following objects before it moves? – – – – – – Crate Dog File cabinet Textbook Mystery object refrigerator Forces and Motion • Formula for linking together Force, Mass, and Acceleration of Objects F = ma • F is the force in N • m is the mass of the object in kg • a is the acceleration in m/s2 • MAKE A FLASHCARD!! Hooke’s Law • The formula to calculate force on a spring: F = kx • F is the force on the spring • k is the spring constant (springs with different tension have different spring constants) • x is the extension from equilibrium • Make a FLASHCARD! • How can you determine the spring constant using your data? Forces and Springs • Today we are going to examine what happens to the extension of a spring when a force is exerted on it. • Create a data table with space to collect data for 3 trials of at least 5 different masses. Include a space for your initial measurements too! Data Collection • When you collect data it is important that you start by marking the load position on your meter stick when your spring is empty. – This will serve as a fixed point to use in your measurements during the lab. • Be sure to choose 5 masses that are quite different from one another and do NOT overload the spring (i.e. if it appears that it will break or fail to stretch back) Calculating Pressure • Each time you take a step or sit down in a chair you exert pressure on the surface below you! • You can calculate the pressure exerted on something by using this equation. Pressure = Force/Area • Units for pressure are usually Pascals (Pa) which is another way to say N/m2 Pressure in Real Life • Why is a small woman wearing high heels capable of damaging wood floors but a huge elephant could walk across the same floor without making a dent? – Let’s find out! Sensible shoes? • The force of our body pushing down will exert a pressure • The surface area of our shoes in contact with the ground will affect the pressure • These stiletto shoes will concentrate the force over a small area • These shoes will give a larger pressure and would not be suitable for walking on soft ground More sensible shoes • These boots have a large surface area • The weight of a person is spread out over the larger surface • The pressure exerted by the person is smaller than if they were wearing stiletto shoes • A small pressure means you will not sink into soft ground Examples of where a large area is needed to reduce pressure. Caterpillar tracks on diggers and on tanks Tires on a tractor Skis and snowboards Examples of where a small area is needed to increase the pressure • Nails • • • • • Needles Kitchen knives Scissors Push pins or tacks Spade Practice Calculations 1. A box weighs 500N. It’s base has an area of 5 m2. What pressure does it exert? Answers: 1. 100 Pa 2. Another identical box is placed on top of the first box. What is the pressure now? 2. 200 Pa 3. A snowboarder weighs 600N. The area of the snowboard is 0.5m2. What is the pressure 3. 1200 Pa Examples • Two people are pushing on a refrigerator from the same side, one with a force of 150N and the other with a force of 85N. How much force is being exerted on the fridge? Example • The teachers and students are involved in a tug-of-war competition on field day. There are 15 teachers, each pulling with a force of 110N and 25 students, each pulling with a force of 75N. Who will win? Practice Time • Complete the sheet in your packet called “Addition of Force and Pressure”
