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Resolution for What’s 1.6 p.c of 360:
1.6 p.c *360 =
(1.6:100)*360 =
(1.6*360):100 =
576:100 = 5.76
Now we now have: 1.6 p.c of 360 = 5.76
Query: What’s 1.6 p.c of 360?
Share answer with steps:
Step 1: Our output worth is 360.
Step 2: We characterize the unknown worth with {x}.
Step 3: From step 1 above,{360}={100%}.
Step 4: Equally, {x}={1.6%}.
Step 5: This leads to a pair of straightforward equations:
{360}={100%}(1).
{x}={1.6%}(2).
Step 6: By dividing equation 1 by equation 2 and noting that each the RHS (proper hand aspect) of each
equations have the identical unit (%); we now have
frac{360}{x}=frac{100%}{1.6%}
Step 7: Once more, the reciprocal of each side provides
frac{x}{360}=frac{1.6}{100}
Rightarrow{x} = {5.76}
Subsequently, {1.6%} of {360} is {5.76}
Resolution for What’s 360 p.c of 1.6:
360 p.c *1.6 =
(360:100)*1.6 =
(360*1.6):100 =
576:100 = 5.76
Now we now have: 360 p.c of 1.6 = 5.76
Query: What’s 360 p.c of 1.6?
Share answer with steps:
Step 1: Our output worth is 1.6.
Step 2: We characterize the unknown worth with {x}.
Step 3: From step 1 above,{1.6}={100%}.
Step 4: Equally, {x}={360%}.
Step 5: This leads to a pair of straightforward equations:
{1.6}={100%}(1).
{x}={360%}(2).
Step 6: By dividing equation 1 by equation 2 and noting that each the RHS (proper hand aspect) of each
equations have the identical unit (%); we now have
frac{1.6}{x}=frac{100%}{360%}
Step 7: Once more, the reciprocal of each side provides
frac{x}{1.6}=frac{360}{100}
Rightarrow{x} = {5.76}
Subsequently, {360%} of {1.6} is {5.76}
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