3^2+4^2=25
Square root of 25 = 5
Box is 5 in from corner to opposite corner
Answer:
21000
Step-by-step explanation:
We are given that
1 candy making machine can produce Swedish jelly candies per minute=350
We have to find the number of Swedish jelly fish candies could 6 identical machines produce in 10 minutes.
In 10 minutes, 1 candy making machine can produce candies=![350\times 10=3500](https://tex.z-dn.net/?f=350%5Ctimes%2010%3D3500)
1 candy making machine can produce candies in 10 minutes=3500
If the rate same then
6 identical candy machine can produce candies in 10 minutes=![3500\times 6=21000](https://tex.z-dn.net/?f=3500%5Ctimes%206%3D21000)
Hence, 6 identical machines can produce Swedish jelly fish candies in 10 minutes=21000
Idk loooooooooooooooooooooooooooooooooooooooooooool
Answer:62.92
Step-by-step explanation:
50/100f=.5f ... 31.46/.5=62.92 ... 62.92=f
Throughout all of these steps I'm only going to alter the left hand side (LHS). I am NOT going to change the right hand side (RHS) at all.
Before I change the LHS of the original equation, let's focus on the given identity
cot^2(x) + 1 = csc^2(x)
Since we know it's an identity, we can subtract 1 from both sides and the identity would still hold true
cot^2(x) + 1 = csc^2(x)
cot^2(x) + 1-1 = csc^2(x)-1
cot^2(x) + 0 = csc^2(x)-1
cot^2(x) = csc^2(x)-1
So we'll use the identity cot^2(x) = csc^2(x)-1
---------------------------------------------
Now onto the main equation given
cot^2(x) + csc^2(x) = 2csc^2(x) - 1
cot^2(x) + csc^2(x) = 2csc^2(x) - 1 .... note the term in bold
csc^2(x)-1 + csc^2(x) = 2csc^2(x) - 1 .... note the terms in bold
[ csc^2(x) + csc^2(x) ] - 1 = 2csc^2(x) - 1
[ 2csc^2(x) ] - 1 = 2csc^2(x) - 1
2csc^2(x) - 1 = 2csc^2(x) - 1
The bold terms indicate how the replacements occur.
So the original equation has been proven to be an identity because the LHS has been altered to transform into the RHS