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Resolution for .20 is what % of 26:
.20:26*100 =
(.20*100):26 =
20:26 = 0.77
Now we’ve: .20 is what % of 26 = 0.77
Query: .20 is what % of 26?
Share answer with steps:
Step 1: We make the belief that 26 is 100% since it’s our output worth.
Step 2: We subsequent characterize the worth we search with {x}.
Step 3: From step 1, it follows that {100%}={26}.
Step 4: In the identical vein, {x%}={.20}.
Step 5: This offers us a pair of easy equations:
{100%}={26}(1).
{x%}={.20}(2).
Step 6: By merely dividing equation 1 by equation 2 and being attentive to the truth that each the LHS
(left hand aspect) of each equations have the identical unit (%); we’ve
frac{100%}{x%}=frac{26}{.20}
Step 7: Taking the inverse (or reciprocal) of either side yields
frac{x%}{100%}=frac{.20}{26}
Rightarrow{x} = {0.77%}
Subsequently, {.20} is {0.77%} of {26}.
Resolution for 26 is what % of .20:
26:.20*100 =
(26*100):.20 =
2600:.20 = 13000
Now we’ve: 26 is what % of .20 = 13000
Query: 26 is what % of .20?
Share answer with steps:
Step 1: We make the belief that .20 is 100% since it’s our output worth.
Step 2: We subsequent characterize the worth we search with {x}.
Step 3: From step 1, it follows that {100%}={.20}.
Step 4: In the identical vein, {x%}={26}.
Step 5: This offers us a pair of easy equations:
{100%}={.20}(1).
{x%}={26}(2).
Step 6: By merely dividing equation 1 by equation 2 and being attentive to the truth that each the LHS
(left hand aspect) of each equations have the identical unit (%); we’ve
frac{100%}{x%}=frac{.20}{26}
Step 7: Taking the inverse (or reciprocal) of either side yields
frac{x%}{100%}=frac{26}{.20}
Rightarrow{x} = {13000%}
Subsequently, {26} is {13000%} of {.20}.
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