1. Three displacement vectors are in x-v plane as shown in the following figure. Find their...
Parts A,B, C
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The magnitudes of 3 displacement vectors shown in the figure are A = 5 m, B = 6 m and C = 4 m a) Find the X and Y components of each Vector b) Determine the magnitude of the resultant vector c) Determine the direction of the resultant vector
Several vectors in the x-y plane are shown in
the figure with their tails at the origin of the coordinate system
and with a label at their heads. Two of these vectors are given in
terms of the unit-vectors i and j
as
P = (1.80 i + 1.30
j) and
Q = (-1.50 i + 5.40
j),
where i and j are measured in
meters.
Identify vectors P and Q in the
figure.
The label of vector P on...
Three displacement vectors of a croquet ball are shown in the figure below, where || = 25.0 units, || = 60.0 units, and || = 15.0 units. Find the following.
(a) The resultant displacement in unit-vector notation
resultant
=
(b) The magnitude and direction of the resultant displacement
magnitude
= units
direction
= ° (from the +x axis)
Several vectors in the x-y plane are shown in
the figure with their tails at the origin of the coordinate system
and with a label at their heads. Two of these vectors are given in
terms of the unit-vectors i and j
as P = (2.20i +
5.30j) and Q =
(-5.30i + 5.40j), where the
numbers are measured in meters.
Identify vectors P and Q in the
figure.
The label of vector Q on the figure is ...
A:...
4. Consider the three displacement vectors shown in the figure: Vector A has a magnitude of 8.20 km and a direction that makes an angle θ = 31 OP to the left of the positive y-axis, vector B has a magnitude of 5 10 km and a direction that makes an angle of α =20.0° above the positive x-axis and vector C has a magnitude of 440 km and a direction that makes an angle β = 550° below the...
3. Consider a thin elastic plane of thickness t with a given in-plane displacement of ſu(x,y) = $dz 5)2 + +d22 (v(x,y) = {2,5)2 +d2 (1) a) Find an expression for all the strain components on this plane. (10 points) b) Find an expression for all the stress components on this plane. (10 points) c) Write down the integral equation to calculate the force on edge A of this plane. (you do not need to solve the integral). (5 points)...
3. Consider a thin elastic plane of thickness t with a given in-plane displacement of ſu(x,y) = $dz 5)2 + +d22 (v(x,y) = {2,5)2 +d2 (1) a) Find an expression for all the strain components on this plane. (10 points) b) Find an expression for all the stress components on this plane. (10 points) c) Write down the integral equation to calculate the force on edge A of this plane. (you do not need to solve the integral). (5 points)...
3- Consider a thin elastic plane of thickness t with a given in-plane displacement of ſu(x, y) = -4,6)3 + d2012 (u(x,y) = _d203)2 ++d793 a) Find an expression for all the strain components on this plane. (10 points) b) Find an expression for all the stress components on this plane. (10 points) c) Write down the integral equation to calculate the force on edge A of this plane. (you do not need to solve the integral). (5 points) d)...
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2) For the three force vectors in the x-y plane, a) Calculate the sum of the force vectors (R) by first calculating EF, and EFy (the scalar sums of the x and y force components, respectively) and then writing the vector result R in îjk summation format. Calculate the magnitude of the resultant,RI, and фх, the angle the resultant makes with the x- axis Sketch R and the angle φ b) c) 15 N 10...
Please answer all.
The displacement vectors A and B shown in the figure below both have magnitudes of 3.70 m. The direction of vector A is θ = 38.5° (a) Find A B graphically magnitude direction o counterclockwise from the +x axis (b) Find A B graphically magnitude direction o counterclockwise from the +x axis (c) Find B A graphically magnitude direction o counterclockwise from the +x axis (d) Find A 2B graphically magnitude direction o counterclockwise from the +x...