Dorothy has a mysterious ? button on her calculator. When she types in an integer and hits the ? button, if the input is odd, the calculator outputs 1 less than triple the input. if the input is even but not divisible by 4, the calculator outputs 1 more than half the number. if the input is divisible by 4, the calculator outputs one-fourth of the input. Dorothy typed in an integer, hit the ? button, and saw an output of $3. What are all possible integers Dorothy may have input?I got the answer
Answers
12.
Explanation:
Let x be the integer she inputs.
"One less than triple the input" would be 3x-1.
She gets 3 as the output; this means 3x-1=3.
To solve this, add 1 to each side:
3x-1+1=3+1
3x=4
Divide both sides by 3:
3x/3 = 4/3
x=4/3 = 1 1/3.
This will not work, however, as it is not an integer.
"One more than half the number" is 1/2x+1. Since she gets 3 as the output, this gives us:
1/2x+1=3
Subtract 1 from each side:
1/2x+1-1=3-1
1/2x=2
Divide both sides by 1/2:
When dividing fractions, flip the second fraction and multiply:
x=2÷(1/2) = 2×(2/1) = (2/1)×(2/1) = 4/1 = 4
While this is an integer, this does not work either, because this expression is for inputs that are even but not divisible by 4. This is divisible by 4, so it is not accurate.
"One-fourth of the input" is 1/4x. The output is 3, which gives us:
1/4x =3
Dividing both sides by 1/4, we have:
When dividing fractions, we flip the second fraction and multiply:
x=3÷(1/4) = 3×(4/1) = (3/1)×(4/1) = 12/1 = 12
This expression is for an input that is divisible by 4. 12 is divisible by 4, so this is accurate.
Final answer:
Given the scenario, no valid integer input would result in an output of $3 from Dorothy's ? button on her calculator. The three conditions specified do not match any integer when the output is $3.
Explanation:
Given that the output of the ? button on Dorothy's calculator is $3, one thing that could have been input and fit one of the conditions is 4, because when an integer is divisible by 4, the calculator outputs its one-fourth. Since 4 is divisible by 4 and one-fourth of 4 equals 1, that's not correct. Now let's check the condition for even numbers not divisible by 4. The calculator outputs 1 more than half the number. So, if we plug in $3 as the output and solve the equation, we get: 3 = 1 + 1/2 (input). Solving for the input, we get 2*2 = 4, which is still wrong. So, finally, we check the condition for odd numbers. Here, the calculator outputs 1 less than triple the input. Substituting $3 as the output, we solve for the input: 3 = 3*(input) - 1. Solving for input, we get input = 4/3, which is not an integer. Therefore, there could not have been an integer input that resulted in a $3 output in this case.
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Answers
Answers
The Volume of sphere whose radius is 3 cm = 113 (rounded to the nearest tenth)
Volume= 113
What is Volume of sphere?
The volume of a sphere = 4/3 r³, where r is the radius of the sphere.
Volume of sphere =
=
= 4 x 3.14 x 9
=113.04
≈ 113 (rounded to the nearest tenth)
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Final answer:
The volume of a hemisphere with a radius of 3 cm is approximately 56.6 cm³ when rounded to the nearest tenth of a cubic centimeter. This is calculated by halving the volume of a sphere with the same radius.
Explanation:
Calculating the Volume of a Hemisphere
The question asks for the volume of a hemisphere with a radius of 3 cm. The formula for the volume of a sphere is V = (4/3)πr³, and since a hemisphere is half of a sphere, the formula adapts to V = (1/2)(4/3)πr³. Using a radius (r) of 3 cm, we get V = (1/2)(4/3)π(3 cm)³.
Let's calculate the volume step by step:
- First, calculate the volume of the full sphere using the radius of 3 cm: V = (4/3)π(3³) cm³
- Compute the result: V = (4/3)(π)(27) cm³ = (36π) cm³
- Since we want the volume of the hemisphere, we divide this number by 2: V = (36π/2) cm³ = (18π) cm³
- Finally, we approximate π to 3.142 and round to the nearest tenth: V ≈ 18(3.142) cm³ ≈ 56.6 cm³
Therefore, the approximate volume of the hemisphere is 56.6 cm³, when rounded to the nearest tenth of a cubic centimeter.
Answers
Answer:
it's 0.198
Step-by-step explanation:
Answer:
0.198
Step-by-step explanation:
divide 198 by 1,000
Answers
Statements A, B, and C are true.
Step-by-step explanation:
Step 1:
A cone, a cylinder and a sphere all have radii of 3 inches. The cone and cylinder have heights of 2 inches.
The volume of the cone, Here r = 3 inches and h = 2 inches.
So the volume of the cone cubic inches.
The volume of the cylinder, Here r = 3 inches and h = 2 inches.
So the volume of the cylinder = cubic inches.
The volume of the sphere, Here r = 3 inches.
So the volume of the sphere cubic inches.
Step 2:
Now we check to see which statements are true.
A. About 113 cubic inches of catnip will fit inside a sphere-shaped toy so it is true.
B. About 18.8 cubic inches of catnip will fit inside a cone-shaped toy so it true.
C. The sphere-shaped toy holds the most of the three so it is true.
D. No shape holds 169.6 cubic inches, so D is false.
E. The toys shaped like a cone and a cylinder do not hold the same amount of catnip in them. So it is false.
P.S. I couldn't see the options B, D, and E completely.
Answers
Answer:
2(7+1)=10
Step-by-step explanation:
7+1=8 8+2=10
Answer:
Below.
Step-by-step explanation:
2x + 2 - 2 = 10 - 2 Subtraction property of equality.