Jason (5 Radium)
give your explanation for whatever truck u choose...π
π
if anyone can choose the fastest truck with explanation will definitely receive rm 10..
ok the answer is impossible to determine, A can be fastest or B can be fastest or C can be fastest, just think why... or they can have same speed... guys the reasoning is related to inertia and acceleration...
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AVICENNA TUITION X EXERCISE STUDENTS
[ TUTOR MUDA DARI BATCH 08 ]
π SPM 2026/27: LET'S START NOW ! π
Cuti CNY nak healing ke nak study? Apa kata buat dua-dua! AVICENNA TUITION nak bantu korang skor Straight Aβs dengan teknik paling simple & straight to the point.
π₯ KENAPA KENA JOIN β
β 100% PERCUMA (Tak payah bayar sesen pun!)
β 16 Subjek Terlibat (Termasuk AddMath, GKT & Reka Cipta)
β TutorMuda Pakar (Abang & Kakak lepasan SPM 2025 yang dah lalui apa korang rasa)
π TARIKH: 12 Feb β 20 Feb 2026
β° MASA: 8:30 AM β 11:00 PM
Jangan biarkan "nanti-nanti" jadi "rugi". Peluang depan mata, jom penuhkan ilmu masa cuti ni!
π Klik link Dibawah Untuk Dapatkan Jadual Kelas :
https://drive.google.com/drive/folders/1oHBv9ZDFYixBqzFy0jCpsHzfDOEn1SaF?usp=sharing
DAPATKAN LINK KELAS DI CHANNEL TELEGRAM :
[ https://t.me/Tatabahasa_Melayu ]
sebarkan pada rakan - rakan anda !
Jason (5 Radium)
Ok U actually can't use. Any formula here
And also give reasoning on why U can't use any formula here.
For truck A, if it decelerates from 200 km per hour to 180km, the water will go to the right side , so we cant really eliminate truck A, for other trucks many people gave reasoning on why it could be the fastest
Forwarded from zhanhao
I see a big misconception here. Not only you, many are doing it as well
If you want to use v = displacement/ time, you are assuming that the velocity is constant and there is no acceleration
But then you find the acceleration for OA, taking v = 20 m/s.
Do you guys see the contradiction here?
We should apply suvat formulas
Journey OA
s = 20
u = 0
v = ?
a = ?
t = 1
s = ut + Β½atΒ²
20 = 0 + Β½a
a = 40 m/sΒ²
Assume that the acceleration is constant
Then use v = u + at
v = 0 + 40(1) = 40 m/s
If you want to use v = displacement/ time, you are assuming that the velocity is constant and there is no acceleration
But then you find the acceleration for OA, taking v = 20 m/s.
Do you guys see the contradiction here?
We should apply suvat formulas
Journey OA
s = 20
u = 0
v = ?
a = ?
t = 1
s = ut + Β½atΒ²
20 = 0 + Β½a
a = 40 m/sΒ²
Assume that the acceleration is constant
Then use v = u + at
v = 0 + 40(1) = 40 m/s
β€2
Forwarded from zhanhao
If you remember this question, I think there's something interesting to discuss.
If you recalled, I said that when the car is at A, the velocity cannot be equal to 20 m/s, assuming a constant acceleration along OA. I stopped there and didn't continue with the discussion. However, if the car continues the journey (taking my case to be true), then you'll find out the OA, BC, DE will have acceleration, making B also a correct answer.
So, what will be the real case? Turns out, you'll need to have a non-uniform acceleration along journey OA, then you can have the car travelling at 20m/s at A, and later having a constant velocity throughout the journey, making option A the only correct answer.
But still, even it's possible to have the car travelling at 20m/s at A, the working did by Harraz in his Physics Spmnetic was still wrong. He didnt understand how to use v = d/t and a = (v-u)/t correctly
If you recalled, I said that when the car is at A, the velocity cannot be equal to 20 m/s, assuming a constant acceleration along OA. I stopped there and didn't continue with the discussion. However, if the car continues the journey (taking my case to be true), then you'll find out the OA, BC, DE will have acceleration, making B also a correct answer.
So, what will be the real case? Turns out, you'll need to have a non-uniform acceleration along journey OA, then you can have the car travelling at 20m/s at A, and later having a constant velocity throughout the journey, making option A the only correct answer.
But still, even it's possible to have the car travelling at 20m/s at A, the working did by Harraz in his Physics Spmnetic was still wrong. He didnt understand how to use v = d/t and a = (v-u)/t correctly
π3
Forwarded from zhanhao
I'll say there's not enough information
Forwarded from zhanhao
Assuming uniform acceleration:
Journey OA
s = ut + 0.5atΒ²
20 = 0 + 0.5a(1)Β²
a = 40 m/sΒ²
v = u + at
v = 0 + 40(1) = 40 m/s
Journey AB
s = ut + 0.5atΒ²
20 = 40(1) + 0.5a(1)Β²
a = -40m/sΒ²
v = u + at
v = 40 + (-40)(1) = 0
Which means it's accelerating, decelerating and vice versa.
If that's the case, then option B is also correct.
Unless, we are assuming a non-uniform acceleration, where we don't care how the acceleration changes, but we assume this acceleration brings the velocity at point A to be 20 m/s, then it has constant velocity all the way down the journey, making option A the only answer.
Journey OA
s = ut + 0.5atΒ²
20 = 0 + 0.5a(1)Β²
a = 40 m/sΒ²
v = u + at
v = 0 + 40(1) = 40 m/s
Journey AB
s = ut + 0.5atΒ²
20 = 40(1) + 0.5a(1)Β²
a = -40m/sΒ²
v = u + at
v = 40 + (-40)(1) = 0
Which means it's accelerating, decelerating and vice versa.
If that's the case, then option B is also correct.
Unless, we are assuming a non-uniform acceleration, where we don't care how the acceleration changes, but we assume this acceleration brings the velocity at point A to be 20 m/s, then it has constant velocity all the way down the journey, making option A the only answer.
β€2
Jason (5 Radium)
Assuming uniform acceleration: Journey OA s = ut + 0.5atΒ² 20 = 0 + 0.5a(1)Β² a = 40 m/sΒ² v = u + at v = 0 + 40(1) = 40 m/s Journey AB s = ut + 0.5atΒ² 20 = 40(1) + 0.5a(1)Β² a = -40m/sΒ² v = u + at v = 40 + (-40)(1) = 0 Which means it's accelerating, deceleratingβ¦
from zianhao, an unknown legend
β€2
for those who don't know about history, few years back an admin of physics spmnetic banned a guy who corrected him, and its a shame to this group, and as an spmnetic admin, I apologize from our side...admin here including me can be incorrect, so pls correct us when we are wrong.
π5β€1
Jason (5 Radium)
give your explanation for whatever truck u choose...π
π
u should know that the liquid would be responding to acceleration not speed and therefore there is no way to determine which is faster, only which is speeding up, slowing down or maintaining steady speed.
β€1π1
β€1
Jason (5 Radium)
the total resistance must be
sad to see majority wrongπππ