Answer:
The answer to your question is:
Explanation:
3.- Convert each into
1.56 x 10⁴ = 15600
0.00259 x 10⁵ = 259
0.00259 x 10³ = 2.59
0.56 x 10⁻² = 0.0056
0.000459 x 10⁻¹ = 0.0000459
0.0209 x 10⁻³ = 0.0000209
3.69 x 10⁻² = 0.0369
13.69 x 10⁻² = 0.1369
736.9 x 10⁵ = 73690000
6.9 x 10⁴ = 69000
4.- Calculate the following
a) 2653000 = 2.653 x 10⁶
b) -2687 = - 2.687 x 10³
c) 2.532 x 10²⁴
d) 1470 = 1.47 x 10³
Metals
Solid
High
Good
Shiny
High density
High
Non metals
Liquid or gas
Low
Bad
Bad
Not shiny
Not dense weak
Btw idk about the oxides and male ilitt
The concept of Standard electrode potential can be used to accomplish this.
<h3><u>
Standard Reduction Potential</u></h3>
The standard reduction potential belongs to the group of potentials known as standard electrodes or standard cells. The difference in voltage between the cathode and anode is known as the standard cell potential. . All of the standard potentials are determined using 1 M solutions, 1 atm, and 298 K.
The probability of reducing a species is known as its standard reduction potential. It is expressed as a reduction half reaction in writing. Below is an illustration where "A" stands for a generic element and "C" represents the charge.
<u>Standard Reduction Potential:</u>
A⁽⁺+Ce⁻→A
For example, copper's Standard Reduction Potential of Eo=+0.340V) is for this reaction:
Cu²⁺+2e⁻→ Cu
The standard reduction potential and the standard oxidation potential are quite similar. It is the propensity of a species to undergo oxidation under normal circumstances. Additionally, it is written as a half reaction.
To view more questions about potential, refer to:
brainly.com/question/14219427
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which is the same as
.