Answer:
0.089.
Explanation:
- For the equilibrium reaction:
<em>Cl₂O + H₂O ⇄ 2HClO,
</em>
Kc = [HClO]²/[Cl₂O][H₂O].
[H₂O] = 0.077 M
, [Cl₂O] = 0.077 M
, [HClO] = 0.023 M.
<em>∴ Kc = [HClO]²/[Cl₂O][H₂O]</em> = (0.023 M)²/(0.077 M)(0.077 M) = <em>0.08922 ≅ 0.089.</em>
The escape velocity formula has nothing to do with what is trying to escape. That means that the mass of the lunar module is not needed.
Formula
v = sqrt( (2 * G * M) / R)
Givens
v = ??
G = 6.67 * 10^-11 This is the gravitational constant.
M = 7.34 * 10^22 kg
R = 1.74 * 10^6 m
Solution
v = sqrt( 2 * 6.67 * 10^- 11 * 7.34*10^22/1.74*10^6)
v = sqrt(9.79156* 10^12 / 1.74 * 10^6)
v = sqrt(5.627 * 10^6)
v = 2372 m/s
Particle
wave are the words you're looking for to fill in the blanks
Answer:
b) has leaves that are 8 -10 cm long
An amorphous solid<span> is any noncrystalline </span>solid<span> in which the atoms and molecules are not organized in a definite lattice pattern. So amorphous solids do not </span>have a long-range order in the arrangement of their particles because their <span> formation involves very rapid cooling. Therefore, the answer would be the first option. Hope this helps.</span>