Answer:
1. 276 g of NO₂
2. 34.8 moles of LiO
3. 4.23×10²⁵ molecules of SO₂
4. 540 g of H₂O
5. 224 g CO
Explanation:
Let's define the molar mass of the compound to define the moles or the grans of each.
Molar mass . moles = Mass
Mass (g) / Molar mass = Moles
1. 6 mol . 46 g / 1 mol = 276 g of NO₂
2. 800 g . 1mol / 22.94 g = 34.8 moles of LiO
3. To determine the number of molecules, we convert the mass to moles and then, we use the NA (1 mol contains 6.02×10²³ molecules)
4500 g . 1mol / 64.06 g = 70.2 moles of SO₂
70.2 mol . 6.02×10²³ molecules / 1 mol = 4.23×10²⁵ molecules of SO₂
4. 30 mol . 18g / 1 mol = 540 g of H₂O
5. 8 mol . 28g / 1mol = 224 g CO
I believe the criteria that are responsible for deciding whether a heterogenous mixture is a colloid or a suspension is <span>whether the particles remain suspended for an extended period of time.</span>
<span> <span>I got 225.797g Explanation
I found the mass of the whole compound by adding up the mass numbers of LiBr. This gave me 86.845. I then multiplied that by the 2.6 and that gave me 225.797</span></span><span>
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Answer:
Chemical sedimentary
Explanation:
Chemical sedimentary rocks form by precipitation of minerals from water.
Work done : 19.5 J
<h3>Further explanation</h3>
Given
F = 15 N
d = 1.3 m
m = 3 kg
Required
Work done
Solution
Work is the product of force with the displacement of objects.
Can be formulated
W = F x d
W = Work, J, Nm
F = Force, N
d = distance, m
Input the value :
W = 15 N x 1.3 m
W = 19.5 J
the mass has no effect on this problem