Gen Combo Ll Basic Biomechanics; Connect Ac; Maxtraq Software Ac
8th Edition
ISBN: 9781264013876
Author: Hall
Publisher: McGraw-Hill Education
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Chapter 15, Problem 7AP
Based on your knowledge of the action of fluid forces, speculate as to why a properly thrown boomerang returns to the thrower.
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Chapter 15 Solutions
Gen Combo Ll Basic Biomechanics; Connect Ac; Maxtraq Software Ac
Ch. 15 - Prob. 1IPCh. 15 - A cyclist is riding at a speed of 14 km/hr into a...Ch. 15 - A skier traveling at 5 m/s has a speed of 5.7 m/s...Ch. 15 - Prob. 4IPCh. 15 - Prob. 5IPCh. 15 - Prob. 6IPCh. 15 - Prob. 7IPCh. 15 - What strategy can people use to improve their...Ch. 15 - What types of individuals may have a difficult...Ch. 15 - Prob. 10IP
Ch. 15 - A cyclist riding against a 12-km/hr headwind has a...Ch. 15 - A swimmer crossing a river proceeds at an absolute...Ch. 15 - Prob. 3APCh. 15 - A scuba diver carries camera equipment in a...Ch. 15 - A 50-kg person with a body volume of 0.055 m3...Ch. 15 - A 670-N swimmer oriented horizontally in...Ch. 15 - Based on your knowledge of the action of fluid...Ch. 15 - Explain the aerodynamic benefits of drafting on a...Ch. 15 - Prob. 9APCh. 15 - Explain why a curveball curves. Include a...
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- A scientist was investigating if differences in the frictional work performed on a model car can change depending on its mass (in grams) and whether the car moves up or down an inclined plane. They decided to measure the amount of frictional force experienced by the model car and the distance it traveled in meters. The scientists were able to evaluate the frictional work using the following data. Mass (g) Distance (m) Force Work Done by Friction (J) car going up the incline 100 39 0.063 2.457 car going down the incline 70 39 0.2309 ? It is known that the relationship between force and distance determines the work done by friction (W+). W₁ = fd Wf work done by friction f = force d = distance Question: How much work done by friction was exerted on the car as it moved down the inclined plane? You may use a calculator. 1 2.457 9.005 11.46 16.16 PREVIOUS FINISHarrow_forwardEach heartbeat ejects blood out of the heart. This process accelerates the blood and generates a force in the opposite direction to the rest of the body. 1- Draw a schematic of an instrument to make measurements based on this principle 2- Give the governing equations for the instrument, labeling the inputs and outputs 3- Estimate the magnitude of the forces measured by this instrumentarrow_forwardWhat was the momentum or “impetus” of the above moving object before its collision? 252 kilogram-meters per second 168 kilogram-meters per second 120 kilogram-meters per second 84 kilogram-meters per second 28 kilogram-meters per secondarrow_forward
- Use the following information to answer questions 20 and 21. Assignment Booklet 4B Two cars, each with a mass of 1000 kg, are travelling in opposíte directionsn is car travelling to the right is travelling 30 m/s, and the car travelling to the lert is travelling 20 m/s. 1000 kg 30 m/s 1000 kg 20 m/s 20. What is the total momentum of the vehicles after they collicde? A. -50 000 kg-m/s B. 50 000 kg.m/s C. -10 000 kg.m/s D. 10 000 kg.m/s al ne 21. If the two vehicles collide and lock together, what is their velocity after the collision? A. -5 m/s Aon s quAua B. 5 m/s elg C. -10 m/s D. 10 m/s Return to page 70 of the Student Module Booklet and begin the Section 3 Review. os elomun ef et birov ort to solniedarrow_forwarda toy car rolls 10 meters (m) across the floor. it takes 5 seconds (s) to cross this distance. what is the speed of this car?arrow_forwardWhen Galileo Galilei pushed a ball down an inclined plane, it had an initial velocity (vo) of 4.0 meters per second (time = 0 seconds) and a final velocity (vf) of 10.0 meters per second (time = 2 seconds). How far did the ball travel along the inclined plane in these 2 seconds? 14 meters 20 meters 28 meters 40 meters 84 metersarrow_forward
- When Galileo Galilei rolled a ball down an inclined plane, it traveled 2 meters in the first second, and a total of 8 meters in the first two With vo = 0, what was its acceleration on this inclined plane? 0 meter per second2 0 meters per second2 0 meters per second2 0 meters per second2 0 meters per second2arrow_forwardHow many types of forces do we havearrow_forwardStarting at rest, an object falls 144 feet in a vacuum (acceleration = 32 feet per second2). If the final velocity of the object was 96 feet per second at impact (vf), how long was the fall? 1.0 seconds 2.0 seconds C. 3.0 seconds 4.0 seconds 5.0 secondsarrow_forward
- When Galileo Galilei rolled a ball down an inclined plane, it traveled 1.0 meters in the first second, and a total of 4.0 meters in the first two seconds. What was its acceleration on this inclined plane? 2.0 meters per second2 3.0 meters per second2 4.0 meters per second2 5.0 meters per second2 6.0 meters per second2arrow_forward1. The use of biological materials to replace damaged parts of the human body must be compatible with the body's tissues even if it produces toxic substances. 2. The term "equilibrium" or, "static equilibrium" is used to describe an object at rest. 3. In each truse, if the force tends to elongate the member, it is a compressive force. 4. The reaction is a tension force which acts away from the member in the opposite direction of the cable. 5. If the material isn't stiff enough, your design probably won't work the way it aims. True False Oarrow_forwardWhat was the average velocity (mean speed) of the above object, when considering the entire time that it was falling? 48 feet per second 72 feet per second 96 feet per second 192 feet per second 240 feet per secondarrow_forward
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