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- College Physics textbook | OpenStax College Physics Answers
Choose a Chapter from OpenStax College Physics Welcome to the internet's best resource to learn physics problem solving! Three years in the making, this enormous collection demonstrates best practices for solving any type of physics problem Each video is concise, but without skipping steps, to help get you on your way as quickly as possible
- OpenStax College Physics, Chapter 9, Problem 13 (Problems Exercises)
This is College Physics Answers with Shaun Dychko There is a car in the middle of this bridge at a position which is 4 5 meters from the pivot which we’ll take to be this hinge here, and we get 4 5 meters by taking the total length of the bridge, seven and a half meters from the center of gravity to this end, plus the one and a half meters between the center of gravity and the hinge, and
- OpenStax College Physics Answers
OpenStax solutions on video for the College Physics and College Physics for AP Courses textbooks by OpenStax Step by step solution manual by screencast video with calculator screenshots Created by the expert physics teacher Shaun Dychko
- OpenStax College Physics, Chapter 25, Problem 60 (Problems Exercises)
This is College Physics Answers with Shaun Dychko A flat mirror has an image distance equal to the negative of the object distance so the image is the same magnitude distance from the mirror as the object is but just on the other side of the mirror; this is partly why mirrors make rooms seem bigger because it seems like things that are being reflected are far behind the mirror
- OpenStax College Physics, Chapter 3, Problem 46 (Problems Exercises)
OpenStax College Physics Chapter 3: Two-Dimensional Kinematics Problem 46 Question A basketball player
- OpenStax College Physics, Chapter 5, Problem 37 (Problems Exercises)
A vertebra is subjected to a shearing force of 500 N Find the shear deformation, taking the vertebra to be a cylinder 3 00 cm high and 4 00 cm in diameter
- OpenStax College Physics, Chapter 9, Problem 4 (Problems Exercises)
Use the second condition for equilibrium (\tau_{ net } = 0) to calculate F_p in Example 9 1, employing any data given or solved for in part (a) of the example
- OpenStax College Physics, Chapter 3, Problem 38 (Problems Exercises)
A football quarterback is moving straight backward at a speed of 2 00 m s when he throws a pass to a player 18 0 m straight downfield
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