While in a park, you walk west for 52 m, then you walk 35.0° north of...
While in a park, you walk west for 52 m, then you walk 35.0° north of west for 40 m, and finally you walk due north for 25 m. Find the components of your final displacement (in m), from your initial to final point, along the north and west directions. (a) find the displacement component due north
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While in a park, you walk west for 52 m, then you walk 35.0°
north of...
Please use clear handwriting and circle answers thanks. 3. -/1 pointsOSColPhys2016 3.3.WA.014 While in a park,...
Please use clear handwriting and circle answers
thanks.
3. -/1 pointsOSColPhys2016 3.3.WA.014 While in a park, you walk west for 52 m, then you walk 27.0° north of west for 45 m, and finally you walk due north for 25 m. Find the components of your final displacement, from your initial to final point, along the north and west directions. (a) displacement component due north (b) displacement component due west
Suppose you first walk 12 m in a direction 20° west of north and then 27m in a direction 40° south of west as shown in the figure.
Suppose you first walk 12 m in a direction 20° west of north and then 27m in a direction 40° south of west as shown in the figure.Part (a) What is the component of your displacement in the x-direction, in meters? Part (b) What is the component of your displacement in the v-direction, in meters?Part (c) How far are you from your starting point in meters? Part (d) what is the angle of a line connecting your starting position to your final...
(18 %) Problem 3: west of north Suppose you walk 11 m in a direction exactly...
(18 %) Problem 3: west of north Suppose you walk 11 m in a direction exactly 25° south of west then you walk 18 m in a direction exactly 44° 25% Part (a) How far are you from your starting point in m? R- 19.26 X Attempts Remain × 25% Part (b) What is the angle of the compass direction of a line connecting your starting point to your final position measured North of West in degrees? Grade Summary Deductions...
Suppose you walk 18.0 m straight west and then 25.0 m straight north.
Suppose you walk 18.0 m straight west and then 25.0 m straight north. (If you represent the two legs of the walk as vector displacements A and B, as in the figure below, then this problem asks you to find their sum R = A + B.) How far, in meters, are you from your starting point? What is the compass direction of a line connecting your starting point to your final position measured in degrees west of north?
Suppose you walk 13.5 m in a d rection exactly 24° south of west then you walk 195 m in a d rection exactly 42° west of north.
Suppose you walk 13.5 m in a d rection exactly 24° south of west then you walk 195 m in a d rection exactly 42° west of north.Part (a) How far are you from your starting point, in meters?Part (b) What is the angle of the compass direction of a line connecting your starting point to your final position measured North of West in degrees?
(10% ) Problem 9: Suppose you first walk 11 m in a direction 20° west of...
(10% ) Problem 9: Suppose you first walk 11 m in a direction 20° west of north and then 23.5 m in a direction 40° south of west as shown in the figure. 40° 20° Otheexpertta.com 25% Part (a) what is the component of your displacement in the x-direction, in meters? Grade Summary Potential 100% Submissions 0% sino cotanO asinO acosO atanO acotan0 sinho coshO tanh0 cotanho tan() π ( Attempts remaining 10 (7% per attempt) detailed view O Degrees...
Suppose you first walk 6.5 m in a direction 20.0° west of north and then 18.5 m in a direction 40.0° south of west.
Suppose you first walk 6.5 m in a direction 20.0° west of north and then 18.5 m in a direction 40.0° south of west. Part (a) How far are you from your starting point in meters? Part (b) What is the angle, in degrees, of the compass direction of a line connecting your starting point to your final position measured south of west? Part (c) Repeat part (a), but for the second leg you walk 18.5m in a direction 40.0 north of east. Part...
Suppose you first walk 12.0 m in a direction 20° west of north and then 20.0 m in a direction 40.0° south of west
Suppose you first walk 12.0 m in a direction 20° west of north and then 20.0 m in a direction 40.0° south of west. How far are you from your starting point, and what is the compass direction of a line connecting your starting point to your final position? (If you represent the two legs of the walk vector displacements A and B, as in Figure 3.56, then this problem finds their sum R = A + B.)
Suppose you first walk 7.5 m in a direction 20.0 west of north and then 18 m in a direction of 40.0 degrees south of west.
Suppose you first walk 7.5 m in a direction 20.0 west of north and then 18 m in a direction of 40.0 degrees south of west. Please help with part (c) and (d), I keep getting it wrong and I don't understand why. Part (a) How far are you from your starting point in meters? Part (b) What is the angle, in degrees, of the compass direction of a line connecting your starting point to your final position measured south of west? Part...
Suppose you first walk A = 14.0 m in a direction θ1 = 18° west of...
Suppose you first walk A =
14.0 m in a direction θ1 = 18° west of north and then B = 27.5 m in
a direction θ2 = 37.0° south of west. How far are you from your
starting point, and what is the compass direction of a line
connecting your starting point to your final position? (If you
represent the two legs of the walk as vector displacements A and B,
as in the figure below, then this problem...
Please use clear handwriting and circle answers
thanks.
3. -/1 pointsOSColPhys2016 3.3.WA.014 While in a park, you walk west for 52 m, then you walk 27.0° north of west for 45 m, and finally you walk due north for 25 m. Find the components of your final displacement, from your initial to final point, along the north and west directions. (a) displacement component due north (b) displacement component due west
(18 %) Problem 3: west of north Suppose you walk 11 m in a direction exactly 25° south of west then you walk 18 m in a direction exactly 44° 25% Part (a) How far are you from your starting point in m? R- 19.26 X Attempts Remain × 25% Part (b) What is the angle of the compass direction of a line connecting your starting point to your final position measured North of West in degrees? Grade Summary Deductions...
(10% ) Problem 9: Suppose you first walk 11 m in a direction 20° west of north and then 23.5 m in a direction 40° south of west as shown in the figure. 40° 20° Otheexpertta.com 25% Part (a) what is the component of your displacement in the x-direction, in meters? Grade Summary Potential 100% Submissions 0% sino cotanO asinO acosO atanO acotan0 sinho coshO tanh0 cotanho tan() π ( Attempts remaining 10 (7% per attempt) detailed view O Degrees...
Suppose you first walk 12.0 m in a direction 20° west of north and then 20.0 m in a direction 40.0° south of west. How far are you from your starting point, and what is the compass direction of a line connecting your starting point to your final position? (If you represent the two legs of the walk vector displacements A and B, as in Figure 3.56, then this problem finds their sum R = A + B.)
Suppose you first walk A =
14.0 m in a direction θ1 = 18° west of north and then B = 27.5 m in
a direction θ2 = 37.0° south of west. How far are you from your
starting point, and what is the compass direction of a line
connecting your starting point to your final position? (If you
represent the two legs of the walk as vector displacements A and B,
as in the figure below, then this problem...
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