Introductory Psychology - Pennebaker Test 2 (answers are at the end of the test) 1. The tendency to see complete letters on a neon sign, even though some of the bulbs are out, illustrates the principle of: A. closure. B. convergence. C. similarity. D. constancy. E. connectedness. 2. Phyllis, a 28-year-old heroin addict, is pregnant. Her baby will be born: A. with schizophrenia. B. a heroin addict. C. visually impaired. D. with Down syndrome. E. hyperactive
Introductory Psychology -- Pennebaker Test 1 -- September 25, 2000 Be sure and put your name on both the ScanTron and actual test. Blacken in your name and social security number along with the correct form. 1. Experience is to genes as ________ is to ________. 1. chromosome; DNA 2. heredity; environment 3. Wundt; Pavlov 4. nurture; nature 5. a bad memory; a bad day 2. The specialist who is most likely to prescribe a drug for the treatment of a psychological disorder is
Test 3 1. The process of getting information out of memory storage is called: A. priming. B. encoding. C. relearning. D. retrieval. E. rehearsal. 2. Chess masters can recall the exact positions of most pieces after a brief glance at the game board. This ability is best explained in terms of: [NOTE: This question turned out to be ambiguous. Everyone gets credit. The technical correct answer, however, is B.] A. flashbulb memory. B. chunking. C. iconic memory. D. the
Form B Name: __________________________ Date: _____________ Introductory Psychology, Fall 2005 (Hawkins) Exam 3 Instructions: Write your name and the date on the top of this exam. Your must turn in this exam along with your answer sheet. On the answer sheet, print your EID, blacken the letters of your EID and provide the other information requested. (Don't forget to put which form of the exam you took!) Remember to blacken your choice for each item on the answer sheet (A, B, C, or
Answers at bottom of test Exam 3 –November 8, 2004 1. Joleen’s friends describe her as being emotionally reserved most of the time but also able to become extremely angry every once and awhile. When she is angry at one of her friends, she usually does not confront them with her problem and instead behaves in a cold and distant manner. Sometimes, however, she will blow up in anger at them a week or two later. Which of the following would most likely be Freud’s evaluation of Joleen
Form A Name: __________________________ Date: _____________ Introductory Psychology, Fall 2005 (Hawkins) Exam 4 Instructions: Write your name and the date on the top of this exam. Your must turn in this exam along with your answer sheet. On the answer sheet, print your EID, blacken the letters of your EID and provide the other information requested. (Don't forget to put which form of the exam you took!) Remember to blacken your choice for each item on the answer sheet (A, B, C, or
Before I explain and talk about why a ball goes farther when hit with an aluminum bat, I would like to present and explain some vocabulary concept and words. A collision, transfers momentum or kinetic energy from one object to another object. There are two types of collisions, elastic collision and inelastic collision. An elastic collision is a collision that occurs when two objects bounce apart when they collide; the total kinetic energy in the system is the same before and after the collision
As we worked on our Rube Goldberg Machine, we uncovered the physics that was taking place. Many aspects of physics come into play when building and testing a Rube Goldberg Machine. Some examples are Newton’s three laws, collisions, conservation of momentum, efficiencies, forces, energy, work, simple machines, and projectiles. We ran into Newtons First Law, which claims that an object resists change in motion, as the marble rolled down the floor it didn’t stop until it was acted against by friction
The Physics of Basketball The more and more I look around I begin to see how physics are integrated into practically everything that we do. These things would surely go unnoticed without making a conscious effort to notice them. For example simple things like riding a bike, or driving a car, or playing catch with a son or daughter. Just as these activities are loaded with elements of physics, sports are also, especially basketball. Physics play a part in every aspect of the game, from dribbling
Aside from being one of the most accessible (and best!) sports out there, many aspects of bowling can be expressed with physics. Achieving maximum power, throwing a hook ball, and getting good pin action can all be broken down into physics issues and represented with equations. I will cover four aspects of bowling that can be explained with physics terms and show you how to use this knowledge to optimize your game. Gravitational Potential Energy Depending on the height from which the bowler
Measuring the Moment of Inertia of a Flywheel Objective ========= Measure the angular velocity of a flywheel and use conservation of energy to calculate its moment of inertia. Apparatus ========= Flywheel String Slotted mass on hanger Stop-watch Vernier caliper Metre ruler Theory ====== The rotational kinetic energy can be defined by the equation K=1/2 I ω2. Where I is the moment of inertia of the body about the axis of rotation. In this experiment
Physics is a part of everyday life. It is evident in the modern technological devices we use in every day experiences and objects around us. Although physics is understood to be only useful in the classroom, physics can also be applied to one the most popular activities on the planet, basketball. Whether jumping for the ball, or leaping for a slam dunk, the human body follows the same laws of projectile motion as do other objects. The sport that includes shooting, passing, running, and dribbling
Energy is a property of matter which can be transferred to other matters or transformed into different forms, although it cannot be created or destroyed. A common definition of energy is that it is the ability to do work. Work is the transfer of energy. Work is done on an object when energy is transferred to that object. If one object transfers energy to another object then the first object does work on the second object. Work is when a force is applied over a distance. To calculate work, find the
The Purpose of our Mouse Trap Car project was to find a way to use what we have learned from Physics and Newton's laws to make a mousetrap powered car. We had a goal to create a car out of material you already had that goes 3 or more meters across the room. We had to find a way to get all the parts and build it with nothing but glue and tape and whatever you had in you house. This challenged involved many aspects such as building/engineering, time management, focus, and most importantly science.
The Physics of Skiing I have been skiing for about five years and I find it to be one of the most fun and challenging sports there is. A lot of the reason it is so challenging is because of the laws of physics such as gravity and friction. In this essay I will discuss how physics relates to skiing and how this physics makes skiing so fun and challenging. I will also discuss how things like wax and the shape and width of your skis can affect these laws of physics and enhance your skiing. There
Ever wondered how roller coasters work? It’s not with an engine! Roller coasters rely on a motorized chain and a series of phenomena to keep them going. Phenomena are situations or facts that have been observed and proven to exist. A few types of phenomena that help rollercoasters are gravity, kinetic and potential energy, and inertia. Gravity pulls roller coasters along the track as they’re going downhill. Potential and kinetic energy help rollercoasters to ascend hills and gain enough momentum
Title Investigating how the final velocity of an object in motion is affected by the angle of an inclined ramp on which it travels. Research Question How does the angle of inclination (º) of a ramp affect the velocity (m/s) of an object in motion, if calculated using the formula [V= (2s/t) –u]? Hypothesis The prediction for this experiment is that the final velocity of an object in motion will be affected according to the angle of inclination of the ramp. The higher the inclination or greater
Rolling Bearing Life Prediction, Theory, and Application: Introduction:- A bearing which carries a load by placing rolling elements (such as balls or rollers) between two bearing rings called races. The relative motion of the races causes the rolling elements to roll with very little resistance and with little sliding. A rolling bearing uses a shaft in a much larger hole, and cylinders called "rollers" tightly fill the space between the shaft and hole. As the shaft turns, each roller acts as the
Introduction Suppose a ball is released from a distance and rolls down an inclined plane, as shown in figure 1. At the bottom of the inclined plane, the ball strikes a level tabletop and bounces away. The inclined plane may be rotated to give a steeper angle, which will affect the time of travel across the tabletop. The ball’s horizontal component of velocity is (Walding, Rapkins and Rossiter, 2004, pg. 62): v_x = v cos θ Figure 1: Experiment set up. Red indicates acting forces, green indicates
Forces play two fundamental roles: to cause an object to move or to change shape (Lawler, 2018). Although there are a variety of forces to study- from inertial forces to gravitational ones- they all utilize at least one of those functions. Impact forces are no exception. Impact forces are those that involve a collision between two objects (Lawler, 2018). Impulse is a concept in physics that is governed by these ever-present forces. Impulse is the product of force and time that equals to the amount