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7/30/2019 Mate Latih Tubi_Area Under the Graf T5
1/2
TUISYEN KITA | cgnashPENCETUS BIJAK MATEMATIK
Mate Latih Tubi_Gradient And Area Under A Graph K2 T5 (disediakan oleh cgnash)
Pastikan 10 soalan sehari diselesaikan
GRADIENT AND AREA UNDER A
GRAPH
1.
The diagram shows the speed-time graph of a particle
over a period ofTseconds. Given that the total
distance travelled in Tseconds is 90 m. Calculate
a) its acceleration in the first 4 seconds.b) the value ofT
2.
The diagram shows the speed-time graph of a particle
over a period of 11 seconds. Calculate the value ofu
in each of the following cases
a) Its acceleration in the first 7 seconds is 2 m s-2.b) The total distance travelled during the 11 seconds
is 138m
3.
The diagram shows the speed-time graph of a particle
over a period ofTseconds. Given that the total
distance travelled in Tseconds is 124 m. Calculate
a) its acceleration in the first 4 seconds.b) the value ofT
4.
The diagram shows the speed-time graph of a particle
over a period of 10 seconds. Calculate the value ofu
in each of the following cases
a) Its acceleration in the first 6 seconds is 0.5 ms-2.b) The total distance traveled in the 10 seconds is 58
m
0 4 T
10
14
Speed (m s-1
)
Time (s)
0 4 T
1220
Speed (m s-1
)
Time (s)
07 11
u
20
Speed (m s-1
)
Time (s)
06 10
u
8
Speed (m s-1
)
Time (s)
7/30/2019 Mate Latih Tubi_Area Under the Graf T5
2/2
TUISYEN KITA | cgnashPENCETUS BIJAK MATEMATIK
Mate Latih Tubi_Gradient And Area Under A Graph K2 T5 (disediakan oleh cgnash)
Pastikan 10 soalan sehari diselesaikan
5.
The diagram shows the speed-time graph of an object
over a period of 17 seconds. Calculate
a) its deceleration in the first 7 secondsb) the value ofu, if the distance travelled in the last
10 seconds is 87 m.
6.
The diagram shows the speed-time graph of an object
over a period of 14 seconds. Calculate
a) its deceleration during the first 4 secondsb) the value ofu, if the distance travelled in the last
10 seconds is 150 m.
7.
In the diagram, OPQ is the distance-time graph of a
car traveling from town A to town B. The straight line
RPS represents the distance-time graph of a van
traveling from town B to town A. Calculate the
a) average speed, in km h-1, of the car from town Ato B
b) value oftif the van traveled at uniform speed.8.
In the diagram, OPQ is the distance-time graph of a
car traveling from town A to town B. The straight line
RPS represents the distance-time graph of a van
traveling from town B to town A. Calculate the
a) average speed, in km h-1, of the car from town Ato B
b) value oftif the van travelled at uniform speed.1 a) 1
b) 7
2 a) 6b) 8
3 a) 2b) 7 4 a) 5a) 6
5
a)7
8
b) 15
6
a)2
7@ -3.5
b) 217 a) 60 km h-
b) 1.2
0 t 3 4
144
240
Distance from A (km)
Time(hrs)
P
QR
S
0 t 5 6
144
250
Distance from A (km)
Time(hrs)
P
QR
S
07 9 17
12
20
u
Time (s)
Speed (m s-1
)
04 10 14
15
29
u
Time (s)
Speed (m s-1
)