PHYS101
Vectors
2017
Tutorial 2: Vectors
Before we start with the tutorials, we should state the following summary for the
calculation of the angles (direction):
Let us consider the following situations:
y
y
x
x
y
y
x
x
In general we can summarise:
• If x1 > 0 and y1 > 0, then
θ1 = θcalculator = tan−1
y
> 0.
x
y
• If x2 < 0 and y2 > 0, then θcalculator = tan−1 x < 0. To get the correct angle of
the vector against the positive x-axis we calculate
θ2 = θcalculator + 180◦ .
y
• If x3 < 0 and y3 < 0, then θcalculator = tan−1 x > 0. To get the correct angle of
the vector against the positive x-axis we calculate
θ3 = θcalculator + 180◦ .
y
• If x4 > 0 and y4 < 0, then θcalculator = tan−1 x < 0. To get the correct angle of
the vector against the positive x-axis we calculate
θ4 = θcalculator + 360◦ .
c
2017
Department of Physics, Eastern Mediterranean University
Page 1 of 6
PHYS101
Vectors
2017
Tutorial Questions
1. What are the x component and the y component of a vector : ~a in the xy plane
if its direction is 250◦ counterclockwise from the positive direction of the x axis
and its magnitude is 7.3m?
~ is −25.0 m and the y component is +40.0 m.
2. The x component of vector A
~
(a) What is the magnitude of A?
~ and the positive direction of
(b) What is the angle between the direction of A
x?
3. Two vectors are given by
~a = (4.0 m)î − (3.0 m)ĵ + (1.0 m)k̂
and
~b = (−1.0 m)î + (1.0 m)ĵ + (4.0 m)k̂.
In unit vector notation find
(a) ~a + ~b
(b) ~a − ~b
(c) a third vector ~c such that ~a − ~b +~c = 0.
4. Given are the vectors
~a = (4.0 m)î + (3.0 m)ĵ, and ~b = (−13.0 m)î + (7.0 m)ĵ
(a) What is the sum ~a + ~b?
(b) What is the magnitude of ~a + ~b?
(c) What is the direction of ~a + ~b?
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5. A car is driven
east for
a distance
direction
30◦
50 km, then north for 30 km, and then in a
east of north for 25 km. Sketch the vector diagram and determine
(a) the magnitude and
(b) the angle of the car’s total displacement from its starting point.
6. The two vectors ~a and ~b in the figure below have equal magnitudes of 10.0 m PROBLEMS
and the angles are θ1 = 30◦ and θ2 = 105◦ .
105°. Find the (a) x and (b) y components of their vector sum :
r , (c)
the magnitude of :
r , and (d) the angle :
r makes with the positive direction of the x axis.
••25
Oasis B is 25 km due east of oasis A. Starting fro
A, a camel walks 24 km in a direction 15° south of east an
walks 8.0 km due north. How far is the camel then from oasi
y
b
θ2
•16 For the displacement vectors
:
a " (3.0 m)î # (4.0 m)ĵ and b "
:
:
(5.0 m)î # (!2.0 m)ĵ , give a # b in
a
θ1
(a) unit-vector notation, and as (b) a
x
magnitude and (c) an angle (rela- O
:
:
Fig. 3-28 Problem 15.
tive to î ). Now give b ! a in (d)
unit-vector notation, and as (e) a
c magnitude
2017
Department
of Physics,
Eastern Mediterranean
and (f) an angle.
:
ILW Three vectors :
•17
a , b , and :
c each have a magnitude of
50 m and lie in an xy plane. Their directions relative to the positive
direction of the x axis are 30°, 195°, and 315°, respectively. What are
:
••26 What is the sum of the following four vectors in (a) u
tor notation, and as (b) a magnitude and (c) an angle?
A " (2.00 m)î # (3.00 m)ĵ
:
:
:
:
B: 4.00 m, at #65.0
C " (!4.00 m)î # (!6.00 m)ĵ
:
:
d1 # d2
: :
5d3, d1
:
d2
D: 5.00 m, at !235
:
3d3,
:
••27
If
and d3 " 2î # 4
"
!
"
:
:
what are, in unit-vector notation, (a) d1 and (b) d2?
••28 Two beetles run across flat sand, starting at the same
University
2 of
6 m at 30° north of d
Beetle 1 runs 0.50 m duePage
east, then
0.80
Beetle 2 also makes two runs; the first is 1.6 m at 40° east
north. What must be (a) the magnitude and (b) the directio
second run if it is to end up at the new location of beetle 1?
PHYS101
Vectors
2017
If ~r is the sum ~r = ~a + ~b. Find the
(a) the x component of ~r,
(b) the y component of ~r,
(c) the magnitude of ~r,
(d) the angle ~r makes with the positive direction of the x-axis.
c
2017
Department of Physics, Eastern Mediterranean University
Page 3 of 6
PHYS101
Vectors
2017
Solutions
1.
a. The x component of ~a is given by
a x = a cos(θ ) = (7.3 m) cos 250◦ = −2.50 m
b. Similarly, the y component is given by
ay = a sin(θ ) = (7.3m) sin 250◦ = −6.86 m
2.
~ is:
a. The magnitude of A
q
q
~ 2
2
2
2
A = A x + Ay = (−25.0 m) + (40.0 m) = 47.17 m
~ and the positive direction of x is
b. The angle between the direction of A
θ = tan−1
Ay
40.0 m
= tan−1
= −58◦
Ax
−25.0 m
θ2 = −58◦ + 180◦ = 122◦
3.
a.
~a + ~b = (4.0 m − 1.0 m) î + (−3.0 m + 1.0 m) ĵ + (1.0 m + 4.0 m) k̂
= (3.0 î − 2.0 ĵ + 5.0 ĵ) m
b.
~a − ~b = (4.0 m + 1.0 m) î + (−3.0 m − 1.0 m) ĵ + (1.0 m − 4.0 m) k̂
= (5.0 î − 4.0 ĵ − 3.0 k̂) m
c. The requirement ~a − ~b +~c = 0 leads to ~c = ~b −~a which we note is the opposite
of what we found in part (b). Thus, ~c = (−5.0 î + 4.0 ĵ + 3.0 k̂) m.
4.
a. The sum
~a + ~b = −9.0 m î + 10 m ĵ
b. The magnitude of
q
~a + ~b = (−9.0 m)2 + (10 m)2 = 13.45 m
c
2017
Department of Physics, Eastern Mediterranean University
Page 4 of 6
PHYS101
Vectors
2017
c. The direction of ~a + ~b is
θ = tan−1
10 m
= −48.01◦
−9.0 m
θ2 = −48◦ + 180◦ = 132◦
y
1
1
x
Note: The calculator displays −48◦ as the range of the tan−1 function is between
−90◦ and 90◦ . As the actual angle θ > 90◦ , we can get the real angle as θ =
−48◦ + 180◦ = 132◦ .
5.
~ = 50 î km , ~B = 30 ĵ km, and C
~ = 25 km cos(60◦ ) î + 25 km sin(60◦ ) ĵ
a. Given is A
The total displacement ~r of the car from its initial position is then
~ + ~B + C
~ = 62.5 km î + 51.65 km ĵ.
~r = A
~r has the magnitude
|~r | =
q
(62.5 km)2 + (51.65 km)2 = 81.1 km
c
2017
Department of Physics, Eastern Mediterranean University
Page 5 of 6
PHYS101
Vectors
2017
b. The direction of the displacement vector ~r is then
−1 51.7 km
tan
= 39.67◦
62.5 km
against the horizontal.
6.
a. r x = 10.0 m cos(30◦ ) + 10.0 m cos(30◦ + 105◦ ) = 1.59 m
b. ry = 10.0 m sin(30◦ ) + 10.0 m sin(30◦ + 105◦ ) = 12.07 m
p
c. |~r | = (1.59 m)2 + (12.1 m)2 = 12.17 m
m
◦
d. θ = tan−1 ( 12.07
1.59 m ) = 82.50
c
2017
Department of Physics, Eastern Mediterranean University
Page 6 of 6