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External link to The opportunities to improve the task performed assignment
Assignment Questions, Mathematics, Physics, statistics, Writing

The opportunities to improve the task performed assignment

The opportunities to improve the task performed assignment This assignment is designed to provide an opportunity to apply the concepts presented in the Unit VI Lesson regarding controlling ergonomic risks factors with proper tool design. Specifically, you will be evaluating a work task to identify specific control measures that can be implemented to address tool design. Click(See Attached)to access the video. Please note that this video contains […]

External link to PHY9230 Advanced Atoms and Molecules.
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PHY9230 Advanced Atoms and Molecules.

Abstract This article describes an algorithm for the calculation of the average properties of an atom in a molecule. The atom is defined within the topological theory of molecular structure, a theory that defines atoms, bonds, structure, and structural stability in terms of the topological properties of a system’s charge distribution. The average properties of the atom so defined are uniquely determined by quantum mechanics. […]

External link to Gauss’
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Gauss’

Chapter 23: Gauss’s Homework: • Read Chapter 23 • Questions 2, 5, 10 • Problems 1, 5, 32 Gauss’s • Gauss’s is the first of the four Maxwell Equations which summarize all of the electromagnetic theory. • Gauss’s gives us an alternative to Coulomb’s for calculating the electric field due to a given distribution of charges. Gauss’s : The General Idea The net number of […]

External link to Motion, steady-state oscillations about the origin with maximum amplitude
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Motion, steady-state oscillations about the origin with maximum amplitude

A mass m moves along the x-axis subject to an attractive force given by 19mx/2 and a retarding force given by, where x is its distance from the origin and is a constant. A driving force is given by, where A is a constant, is applied to the particle along the x-axis. Write down the equation of motion. What value results in steady-state oscillations about […]

External link to Prosecuting hackers, Investigate Web sites and comparison of security tools that claim to protect home and enterprise internet operations
Engineering, Computer Science, Networking, Physics, Programming

Prosecuting hackers, Investigate Web sites and comparison of security tools that claim to protect home and enterprise internet operations

1. Why is it appropriate to criminally prosecute hackers for simply breaking into government computers? Should we prosecute those who break into private  corporation computers if no other criminal activity occurs? Explain your answer in detail. Answer While the internet has revolutionized business and communication almost overnight, laws regulating its use and misuse haven’t developed as swiftly. But in the last few years Congress and […]

External link to PHYSICS 210 Practice Final Exam, Janatpour Name: _______________________ Date: ________ In questions one and two, to get credit, you explain must your choice. Q1) In Figure 1 are scale drawings of four objects, each of the same mass and uniform thickness. Which has the greatest moment of inertia when rotated about an axis perpendicular to the plane of the drawing? In each case the axis passes through point P. A) A B) B C) C D) D E) The moment of inertia is the same for all of these objects. Figure 1 Q2) In Figure 2, a given force F is applied to a rod in several different ways. In which case is the torque due to F about the pivot P greatest? A) 1 B) 2 C) 3 D) 4 E) 5 Figure 2 Q3) State Newton’s Second of Motion for rotation and translation in their general forms. Q4) State the work-energy theorem accurately and demonstrate it by an example. 1) A potter’s wheel, with rotational inertia 24 kg.m2 is spinning freely at 40.0 rpm. The potter drops a lump of clay onto the wheel, where it sticks a distance 1.2 m from the rotational axis. If the subsequent angular speed of the wheel and clay is 32 rpm, what is the mass of the clay? Assume that lump of clay is a point mass. 2) In Figure 3, two blocks, of masses 2.0 kg and 3 kg, are connected by a light string which passes over a pulley of moment of inertia 0.0040 kg.m2 and radius 5 cm. The coefficient of friction for the table top is 0.30. The blocks are released from rest. Using energy methods, find the speed of the upper block after the it has moved 0.6 m. Figure 3 3) A 0.12 kg block on a horizontal frictionless surface is attached to a spring whose force constant is 570 N/m. The block is pulled from its equilibrium position at x = 0 m to a displacement x = +0.080 m and is released from rest. The block then executes simple harmonic motion along the x-axis (horizontal). Find the displacement of the block at time t = 0.20 seconds. 4) A 2.0kg disk is rotating at 150rpm about an axis perpendicular to its plane and through its center. A force, F, is applied to its rim and perpendicular to the rim. The disk stops in 10.0 seconds. The radius of the disk is 10.0cm. The kinetic friction at the point of the contact of the force and the rim is 0.25 (Assume constant coefficient.) What is the magnitude of the force, F?
Physics

PHYSICS 210 Practice Final Exam, Janatpour Name: _______________________ Date: ________ In questions one and two, to get credit, you explain must your choice. Q1) In Figure 1 are scale drawings of four objects, each of the same mass and uniform thickness. Which has the greatest moment of inertia when rotated about an axis perpendicular to the plane of the drawing? In each case the axis passes through point P. A) A B) B C) C D) D E) The moment of inertia is the same for all of these objects. Figure 1 Q2) In Figure 2, a given force F is applied to a rod in several different ways. In which case is the torque due to F about the pivot P greatest? A) 1 B) 2 C) 3 D) 4 E) 5 Figure 2 Q3) State Newton’s Second of Motion for rotation and translation in their general forms. Q4) State the work-energy theorem accurately and demonstrate it by an example. 1) A potter’s wheel, with rotational inertia 24 kg.m2 is spinning freely at 40.0 rpm. The potter drops a lump of clay onto the wheel, where it sticks a distance 1.2 m from the rotational axis. If the subsequent angular speed of the wheel and clay is 32 rpm, what is the mass of the clay? Assume that lump of clay is a point mass. 2) In Figure 3, two blocks, of masses 2.0 kg and 3 kg, are connected by a light string which passes over a pulley of moment of inertia 0.0040 kg.m2 and radius 5 cm. The coefficient of friction for the table top is 0.30. The blocks are released from rest. Using energy methods, find the speed of the upper block after the it has moved 0.6 m. Figure 3 3) A 0.12 kg block on a horizontal frictionless surface is attached to a spring whose force constant is 570 N/m. The block is pulled from its equilibrium position at x = 0 m to a displacement x = +0.080 m and is released from rest. The block then executes simple harmonic motion along the x-axis (horizontal). Find the displacement of the block at time t = 0.20 seconds. 4) A 2.0kg disk is rotating at 150rpm about an axis perpendicular to its plane and through its center. A force, F, is applied to its rim and perpendicular to the rim. The disk stops in 10.0 seconds. The radius of the disk is 10.0cm. The kinetic friction at the point of the contact of the force and the rim is 0.25 (Assume constant coefficient.) What is the magnitude of the force, F?

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External link to physics_210_practice_test_1Physics 210 Practice Test #1 Janatpour Name: ____________________________ Date: ______ Grade: ___ Q1) If the acceleration on a body is zero, are no forces acting on it? Explain. Q2) Can two vectors, of unequal magnitude, ever add up to give the zero vector? Explain.   Q3) State Newton’s Second of motion accurately. Give an example, which demonstrates the . A ball is thrown, with initial speed of 10 m/s, at an angle of 30° above the horizon from a platform, which is 20 meters above the ground. A) Calculate the maximum height reached by the ball. B) Calculate the time and the velocity right before it hits the ground. A 2.0kg box, a 4.0kg box, and an 8.0kg box are set on a flat ground, with the 2.0kg box between the other two. The friction between the boxes and the ground is negligible. A force of 28.0N is applied to the 4.0kg box. A) Draw the free-body diagram for each box. B) Calculate the force that the 2.0kg box exerts on the 8.0kg box. An aircraft performs a maneuver called an aileron roll. During this maneuver, the plane turns like a screw as it maintains a straight flight path, by using its ailerons to set the wings in circular motion. If it takes the plane 35 s to complete the circle and each wing length is 4.6 m what is the acceleration of the wing tip? A 0.40 kg ball, attached to the end of a horizontal cord, is rotated in a circle of radius 1.3 m on a frictionless horizontal surface. If the cord will break when the tension in it exceeds 60 N, what is the maximum speed the ball can have? Two objects having masses m1 and m2 are connected to each other as shown in the figure and are released from rest. The coefficient of the kinetic friction between m1 and the table surface is 0.25. There is no friction at axle of the pulley. The masses of the pulley and the string connecting the objects are completely negligible. A) Draw a FBD for each mass, assuming m1= 8.0 kg and m2 = 4.0 kg. B) What is the tension in the rope?
Assignment Questions, Physics

physics_210_practice_test_1Physics 210 Practice Test #1 Janatpour Name: ____________________________ Date: ______ Grade: ___ Q1) If the acceleration on a body is zero, are no forces acting on it? Explain. Q2) Can two vectors, of unequal magnitude, ever add up to give the zero vector? Explain.   Q3) State Newton’s Second of motion accurately. Give an example, which demonstrates the . A ball is thrown, with initial speed of 10 m/s, at an angle of 30° above the horizon from a platform, which is 20 meters above the ground. A) Calculate the maximum height reached by the ball. B) Calculate the time and the velocity right before it hits the ground. A 2.0kg box, a 4.0kg box, and an 8.0kg box are set on a flat ground, with the 2.0kg box between the other two. The friction between the boxes and the ground is negligible. A force of 28.0N is applied to the 4.0kg box. A) Draw the free-body diagram for each box. B) Calculate the force that the 2.0kg box exerts on the 8.0kg box. An aircraft performs a maneuver called an aileron roll. During this maneuver, the plane turns like a screw as it maintains a straight flight path, by using its ailerons to set the wings in circular motion. If it takes the plane 35 s to complete the circle and each wing length is 4.6 m what is the acceleration of the wing tip? A 0.40 kg ball, attached to the end of a horizontal cord, is rotated in a circle of radius 1.3 m on a frictionless horizontal surface. If the cord will break when the tension in it exceeds 60 N, what is the maximum speed the ball can have? Two objects having masses m1 and m2 are connected to each other as shown in the figure and are released from rest. The coefficient of the kinetic friction between m1 and the table surface is 0.25. There is no friction at axle of the pulley. The masses of the pulley and the string connecting the objects are completely negligible. A) Draw a FBD for each mass, assuming m1= 8.0 kg and m2 = 4.0 kg. B) What is the tension in the rope?

Physics 210 Practice Test #1 Janatpour Name: ____________________________ Date: ______ Grade: ___   Q1) If the acceleration on a body is zero, are no forces acting on it? Explain.   Q2) Can two vectors, of unequal magnitude, ever add up to give the zero vector? Explain.   Q3) State Newton’s Second of motion accurately. Give an example, which demonstrates the .   A ball is […]

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