Note : X axis is represented by vetor (i)
Y axis is represented by vector(j)
Z axis is represented by vector (k)
During Explanation , To represent Point A i have written : ( point A )
to represent Vector A i have written : ( A vector )
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Please help Statics Note: Use g = 9.81 m/s when required. 3. Consider the vector A...
Please help Statics Note: Use g = 9.81 m/s when required. 3. Consider the vector A whose magnitude is 12 m. (a) Express A in terms of its Cartesian components. (4) (b) Hence calculate the angles that A makes with the pos- itiver and y axes. (2) 400
Please help Statics Note: Use g = 9.81 m/s when required. 3. Consider the vector A whose magnitude is 12 m. (a) Express A in terms of its Cartesian components. (4) (b) Hence calculate the angles that A makes with the pos- itiver and y axes. (2) 400
Please help Statics Note: Use g = 9.81 m/s when required. 3. Consider the vector A whose magnitude is 12 m. (a) Express A in terms of its Cartesian components. (4) (b) Hence calculate the angles that A makes with the pos- itiver and y axes. (2) 400
Statics Note: Use g = 9.81 m/s when required. 3. Consider the vector A whose magnitude is 12 m. (a) Express A in terms of its Cartesian components. (4) (b) Hence calculate the angles that A makes with the pos- itiver and y axes. (2) 400
Just question 6 please Statics Note: Use g = 9.81 m/s when required. 3. Consider the vector A whose magnitude is 12 m. (a) Express A in terms of its Cartesian components. (4) (b) Hence calculate the angles that A makes with the pos- itiver and y axes. (2) 400
Please help! :) Discussion #3 1. Consider the motion of an object that can be treated as a point particle and is traveling counter-clockwise in a circle of radius R. This motion can (and will for the purposes of these discussion activities) be described and analyzed using a Cartesian (x-y) coordinate system with a spatial origin at the center of the particle's circular trajectory (the physical path its motion traces out in space). (a) Draw a diagram of the position...
Please answer this ASAP!! Moment of a Force-Vector Formulation Learning Goal To use the vector cross product to calculate the moment produced by a force or forces, about a specified point on a member The moment of a force F about the moment axis passing through O and perpendicular to the plane containing o and F can be expressed using the veotor cross product, Mo x F. n a properly constructed Cartesian coordinate system he vector cross product can be...
Help please 4. Consider the three displacement vectors shown in the figure: Vector A has a magnitude of 7.70 km and a direction that makes an angle θ 26.0 to the left of the positive y-axis, vector B has a magnitude of 6.00 km and a direction that makes an angle of α-200° above the positive x-axis, and vector C has a magnitude of 4.20 km and a direction that makes an angle B 61.0° below the negative x-axis. Determine...
Need help with this Matlab program %% Exercise 1 % NOTE: Please suppress output--i.e., use a semicolon ';' at the end of any % commands for which the output is not necessary to answer the question. % Delete these notes before turning in. % Define input variable theta as discretized row vector (i.e., array). theta = ??; % Define radius. r = ??; % Define x and y in terms of theta and r. x = ??; y = ??;...
Show work and please explain! 1. Vector addition and subtraction: We are given the magnitudes and directions of the vectors A and B as follows (a) Carefully sketch each vector individually, then sketch the sum C-A+B and sketch the difference D-A B. Try to make the lengths to scale and make the angles relatively accurate. (Use a protractor.) Use trigonometry to find the components of cach of the four vectors A, B, C, and D Use trigonometry to find the...