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The probability of a 4 shows up is : $\frac{1}{6}$

The probability of a 4 doesn't show up is: $\frac{5}{6}$

Hence, the probability is

$\displaystyle 3\big (\frac{1}{6}\times\frac{5}{6}\times\frac{5}{6} \big )$

We need to times three because there are three different case on which die should be showing 4. I'll try the other problems tomorrow, it's quite late already here....

Let $A$ and $B$ be on the opposite ends of the diameter which is horizontal ( though it does not matter but for convenience sake and without loss of originality we can assume it.) with $A$ on the left while $B$ on the right. Since they move in opposite directions, we can take $A$ to be moving in clockwise direction and $B$ in counter-clockwise direction. Let the radius of the circle be $R$ and angular speeds of $A$ and $B$ be $\omega_{1}$ and $\omega_{2}$ respectively. If the meet for the first time after $t$ seconds and for second time after $t_{1}$ seconds from the start, we can write the following equations:
$R\omega_{2} t = 100 \dots (1)$
$\omega_{1} t + \omega_{2} t = \pi \dots (2)$
Using $(1)$ and $(2)$, we can write
$\displaystyle \frac{\pi R \omega_{2}}{\omega_{1} + \omega_{2}} = 100 \Rightarrow \frac{\pi R}{100} = 1 + \frac{\omega_{1}}{\omega_{2}} \dots (5)$
Similarly, for second encounter, we can write,
$R\omega_{1} t_{1} = 2\pi R - 60 \dots (3)$
$R\omega_{2} t_{1} = \pi R + 60 \dots(4)$
Using $(3) \text{and} (4)$, we can write,
$\displaystyle \frac{\omega_{1}}{\omega_{2}} = \frac{2\pi R - 60}{\pi R + 60} \dots (6)$
Substituting eqn. $(6)$ in eqn. $(5)$, we obtain,
$\displaystyle \frac{\pi R}{100} = 1 + \frac{2\pi R - 60}{\pi R + 60} \Rightarrow \pi R = 240$
Hence, the circumference of the circular path is $480$.

Extend $CD$ to meet $AD$ at $E$, by the parallels, $\angle CED=\angle D-\angle ECD=\angle D-\angle B=\angle B=\angle ECD$. Hence $ED=DC=3,AB=AE=AD+DE=5+3=8$

Hi Christopher! I'll definitely share the other problems in a problem set. I've posted these questions here because I'm not sure if my answers are correct. I was hoping that I could compare my answers with your solutions so that I can achieve some peace of mind. Please help!

I agree @Christopher Boo