a. b. The normal force which the path exerts on a particle is always on: The Normal direction O The Transverse direction The Tangent direction The Radial direction It is time to draw, match the axis you will draw on the free body diagram or the kinetic diagram with the force or acceleration on this specific axis: Y axis Normal axis Tangent axis Radial axis Transverse axis N [Choose ] [Choose] The normal force between the surface and the motorcycle The weight of the motorcycle The frictional force between the surface and the motorcycle The transverse acceleration (a theta) The radial acceleration (ar) [Choose] [Choose ] [Choose ]

a. b. The normal force which the path exerts on a particle is always on: The Normal direction O The Transverse direction The Tangent direction The Radial direction It is time to draw, match the axis you will draw on the free body diagram or the kinetic diagram with the force or acceleration on this specific axis: Y axis Normal axis Tangent axis Radial axis Transverse axis N [Choose ] [Choose] The normal force between the surface and the motorcycle The weight of the motorcycle The frictional force between the surface and the motorcycle The transverse acceleration (a theta) The radial acceleration (ar) [Choose] [Choose ] [Choose ]

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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touch Ņ Ö a 59 || 2:39 pm Document View CIVE210 – STATICS Monday March 30, 2020, 6:30PM (50 mn) Exercise I: 60°1 F. 450 1200 O (in XY plane) X O (in vertical plane) F1 For F1 = 350 N and F2 = 200 N, and 0= 20 degrees and ø= 50 degrees: The magnitude of the resultant FR of the forces F1 and F2, and the angle between the two forces F, and F2, are equal to: ? Helpful Unhelpful77 degrees Ask Expert Tutors
A particle P of mass m = 1 kg arrives at point with a horizontal velocity vo and starts rolling down a circle with radius R = 1 m. The particle is attached to the point O by means of a linear spring of stiffness k = 50 N/m that is unstretched when the particle is at O. Assume that during the motion of P along the circle, the spring follows the circle. Let N = {ĥ, ny} be a fixed reference frame as shown in the figure and let B = {b, by} be a reference frame attached to P so that b is tangent to the circular path and by is perpendicular to the circular path. For convenience, take g = 10 m/s² in this question. ny 1/ nx IP
Zorch, an archenemy of Superman, decides to slow Earth’s rotation to once per 29 h by exerting a force parallel to the equator, opposing the rotation. Superman is not immediately concerned, because he knows Zorch can only exert a force of 4.15 × 107 N. For the purposes calculations in this problem you should treat the Earth as a sphere of uniform density even though it isn't. a. How long, in seconds, must Zorch push with this force to accomplish his goal? (This period gives Superman time to devote to other villains.)
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My calculated value of acceleration is 12.2 m/s^2 when I drop the object from a height of 3 m. And I need help with the question that is in the attached image.
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The following concurrent forces are acting on a body in xy plane: A 300 lb pointing up to the right 30 degrees with x axis, 400 lb at 45 degrees with x axis acting up to the left, 200 lb down to the left at 60 degrees with x axis, 150 lb down to the right at 75 degrees with x axis and a 100 lb directly to the right. Determine the resultant force and its direction using graphical and analytical method. Pls show the solution, formula and free body diagram.
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