How to find the surface area of a cylinder - GRE Quantitative Reasoning

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Question

What is the surface area of a cylinder with a radius of 6 and a height of 9?

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Answer

surface area of a cylinder

= 2_πr_2 + 2_πrh_

= 2_π_ * 62 + 2_π_ * 6 *9

= 180_π_

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Question

Quantitative Comparison

Quantity A: The volume of a cylinder with a radius of 3 and a height of 4

Quantity B: 3 times the volume of a cone with a radius of 3 and a height of 4

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Answer

There is no need to do the actual computations here to find the two volumes. The volume of a cone is exactly 1/3 the volume of a cylinder with the same height and radius. That means the two quantities are equal. The formulas show this relationship as well: volume of a cone = πr_2_h/3 and volume of a cylinder = πr_2_h.

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Question

The area of the base of a circular right cylinder is quadrupled. By what percentage is the outer face increased by this change?

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Answer

The base of the original cylinder would have been πr2, and the outer face would have been 2πrh, where h is the height of the cylinder.

Let's represent the original area with A, the original radius with r, and the new radius with R: therefore, we know πR2 = 4A, or πR2 = 4πr2. Solving for R, we get R = 2r; therefore, the new outer face of the cylinder will have an area of 2πRh or 2π2rh or 4πrh, which is double the original face area; thus the percentage of increase is 100%. (Don't be tricked into thinking it is 200%. That is not the percentage of increase.)

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Question

A cylinder has a radius of 4 and a height of 8. What is its surface area?

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Answer

This problem is simple if we remember the surface area formula!

$SA = 2\pi $r^2$ +2\pi rh = 2\pi 16+2\pi 4*8 = 32\pi +64\pi = 96\pi$

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Question

What is the surface area of a cylinder with a radius of 17 and a height of 3?

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Answer

We need the formula for the surface area of a cylinder: SA = 2_πr_2 + 2_πrh_. This formula has π in it, but the answer choices don't. This means we must approximate π. None of the answers are too close to each other so we could really even use 3 here, but it is safest to use 3.14 as an approximate value of π.

Then SA = 2 * 3.14 * 172 + 2 * 3.14 * 17 * 3 ≈ 2137

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Question

Quantitative Comparison

Quantity A: Surface area of a cylinder that is 2 feet high and has a radius of 4 feet

Quantity B: Surface area of a box that is 3 feet wide, 2 feet high, and 4 feet long

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Answer

Quantity A: SA of a cylinder = 2_πr_2 + 2_πrh_ = 2_π _ 16 + 2_π_ 4 * 2 = 48_π_

Quantity B: SA of a rectangular solid = 2_ab_ + 2_bc_ + 2_ac_ = 2 * 3 * 2 + 2 * 2 * 4 + 2 * 3 * 4 = 52

48_π_ is much larger than 52, because π is approximately 3.14.

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Question

What is the surface area of a cylinder that has a diameter of 6 inches and is 4 inches tall?

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Answer

The formula for the surface area of a cylinder is $\dpi{100} 2\pi $r^{2}$+ 2\pi rh$ ,

where is the radius and is the height.

$\dpi{100} SA=2\pi $(3)^{2}$+2\pi (3)(4)$

$\dpi{100} =42\pi$

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Question

A right circular cylinder of volume $200\pi$ has a height of 8.

Quantity A: 10

Quantity B: The circumference of the base

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Answer

The volume of any solid figure is $base \times height$ . In this case, the volume of the cylinder is $200\pi$ and its height is , which means that the area of its base must be $25\pi$ . Working backwards, you can figure out that the radius of a circle of area $25\pi$ is . The circumference of a circle with a radius of is $10\pi$ , which is greater than .

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Question

What is the surface area of a cylinder with a radius of 6 and a height of 9?

Tap to reveal answer

Answer

surface area of a cylinder

= 2_πr_2 + 2_πrh_

= 2_π_ * 62 + 2_π_ * 6 *9

= 180_π_

← Didn't Know|Knew It →

Question

Quantitative Comparison

Quantity A: The volume of a cylinder with a radius of 3 and a height of 4

Quantity B: 3 times the volume of a cone with a radius of 3 and a height of 4

Tap to reveal answer

Answer

There is no need to do the actual computations here to find the two volumes. The volume of a cone is exactly 1/3 the volume of a cylinder with the same height and radius. That means the two quantities are equal. The formulas show this relationship as well: volume of a cone = πr_2_h/3 and volume of a cylinder = πr_2_h.

← Didn't Know|Knew It →

Question

The area of the base of a circular right cylinder is quadrupled. By what percentage is the outer face increased by this change?

Tap to reveal answer

Answer

The base of the original cylinder would have been πr2, and the outer face would have been 2πrh, where h is the height of the cylinder.

Let's represent the original area with A, the original radius with r, and the new radius with R: therefore, we know πR2 = 4A, or πR2 = 4πr2. Solving for R, we get R = 2r; therefore, the new outer face of the cylinder will have an area of 2πRh or 2π2rh or 4πrh, which is double the original face area; thus the percentage of increase is 100%. (Don't be tricked into thinking it is 200%. That is not the percentage of increase.)

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Question

A cylinder has a radius of 4 and a height of 8. What is its surface area?

Tap to reveal answer

Answer

This problem is simple if we remember the surface area formula!

$SA = 2\pi $r^2$ +2\pi rh = 2\pi 16+2\pi 4*8 = 32\pi +64\pi = 96\pi$

← Didn't Know|Knew It →

Question

What is the surface area of a cylinder with a radius of 17 and a height of 3?

Tap to reveal answer

Answer

We need the formula for the surface area of a cylinder: SA = 2_πr_2 + 2_πrh_. This formula has π in it, but the answer choices don't. This means we must approximate π. None of the answers are too close to each other so we could really even use 3 here, but it is safest to use 3.14 as an approximate value of π.

Then SA = 2 * 3.14 * 172 + 2 * 3.14 * 17 * 3 ≈ 2137

← Didn't Know|Knew It →

Question

Quantitative Comparison

Quantity A: Surface area of a cylinder that is 2 feet high and has a radius of 4 feet

Quantity B: Surface area of a box that is 3 feet wide, 2 feet high, and 4 feet long

Tap to reveal answer

Answer

Quantity A: SA of a cylinder = 2_πr_2 + 2_πrh_ = 2_π _ 16 + 2_π_ 4 * 2 = 48_π_

Quantity B: SA of a rectangular solid = 2_ab_ + 2_bc_ + 2_ac_ = 2 * 3 * 2 + 2 * 2 * 4 + 2 * 3 * 4 = 52

48_π_ is much larger than 52, because π is approximately 3.14.

← Didn't Know|Knew It →

Question

What is the surface area of a cylinder that has a diameter of 6 inches and is 4 inches tall?

Tap to reveal answer

Answer

The formula for the surface area of a cylinder is $\dpi{100} 2\pi $r^{2}$+ 2\pi rh$ ,

where is the radius and is the height.

$\dpi{100} SA=2\pi $(3)^{2}$+2\pi (3)(4)$

$\dpi{100} =42\pi$

← Didn't Know|Knew It →

Question

A right circular cylinder of volume $200\pi$ has a height of 8.

Quantity A: 10

Quantity B: The circumference of the base

Tap to reveal answer

Answer

The volume of any solid figure is $base \times height$ . In this case, the volume of the cylinder is $200\pi$ and its height is , which means that the area of its base must be $25\pi$ . Working backwards, you can figure out that the radius of a circle of area $25\pi$ is . The circumference of a circle with a radius of is $10\pi$ , which is greater than .

← Didn't Know|Knew It →

Question

The area of the base of a circular right cylinder is quadrupled. By what percentage is the outer face increased by this change?

Tap to reveal answer

Answer

The base of the original cylinder would have been πr2, and the outer face would have been 2πrh, where h is the height of the cylinder.

Let's represent the original area with A, the original radius with r, and the new radius with R: therefore, we know πR2 = 4A, or πR2 = 4πr2. Solving for R, we get R = 2r; therefore, the new outer face of the cylinder will have an area of 2πRh or 2π2rh or 4πrh, which is double the original face area; thus the percentage of increase is 100%. (Don't be tricked into thinking it is 200%. That is not the percentage of increase.)

← Didn't Know|Knew It →

Question

A cylinder has a radius of 4 and a height of 8. What is its surface area?

Tap to reveal answer

Answer

This problem is simple if we remember the surface area formula!

$SA = 2\pi $r^2$ +2\pi rh = 2\pi 16+2\pi 4*8 = 32\pi +64\pi = 96\pi$

← Didn't Know|Knew It →

Question

What is the surface area of a cylinder with a radius of 17 and a height of 3?

Tap to reveal answer

Answer

We need the formula for the surface area of a cylinder: SA = 2_πr_2 + 2_πrh_. This formula has π in it, but the answer choices don't. This means we must approximate π. None of the answers are too close to each other so we could really even use 3 here, but it is safest to use 3.14 as an approximate value of π.

Then SA = 2 * 3.14 * 172 + 2 * 3.14 * 17 * 3 ≈ 2137

← Didn't Know|Knew It →

Question

Quantitative Comparison

Quantity A: Surface area of a cylinder that is 2 feet high and has a radius of 4 feet

Quantity B: Surface area of a box that is 3 feet wide, 2 feet high, and 4 feet long

Tap to reveal answer

Answer

Quantity A: SA of a cylinder = 2_πr_2 + 2_πrh_ = 2_π _ 16 + 2_π_ 4 * 2 = 48_π_

Quantity B: SA of a rectangular solid = 2_ab_ + 2_bc_ + 2_ac_ = 2 * 3 * 2 + 2 * 2 * 4 + 2 * 3 * 4 = 52

48_π_ is much larger than 52, because π is approximately 3.14.

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Knew It

How to find the surface area of a cylinder - GRE Quantitative Reasoning

What is the surface area of a cylinder with a radius of 6 and a height of 9?

surface area of a cylinder = 2_πr_2 + 2_πrh_ = 2_π_ * 62 + 2_π_ * 6 *9 = 180_π_

Quantitative Comparison Quantity A: The volume of a cylinder with a radius of 3 and a height of 4 Quantity B: 3 times the volume of a cone with a radius of 3 and a height of 4

The area of the base of a circular right cylinder is quadrupled. By what percentage is the outer face increased by this change?

A cylinder has a radius of 4 and a height of 8. What is its surface area?

This problem is simple if we remember the surface area formula!

What is the surface area of a cylinder with a radius of 17 and a height of 3?

Quantitative Comparison Quantity A: Surface area of a cylinder that is 2 feet high and has a radius of 4 feet Quantity B: Surface area of a box that is 3 feet wide, 2 feet high, and 4 feet long

Quantity A: SA of a cylinder = 2_πr_2 + 2_πrh_ = 2_π *_ 16 + 2_π_ * 4 * 2 = 48_π_ Quantity B: SA of a rectangular solid = 2_ab_ + 2_bc_ + 2_ac_ = 2 * 3 * 2 + 2 * 2 * 4 + 2 * 3 * 4 = 52 48_π_ is much larger than 52, because π is approximately 3.14.

What is the surface area of a cylinder that has a diameter of 6 inches and is 4 inches tall?

The formula for the surface area of a cylinder is , where is the radius and is the height.

A right circular cylinder of volume has a height of 8. Quantity A: 10 Quantity B: The circumference of the base

What is the surface area of a cylinder with a radius of 6 and a height of 9?

surface area of a cylinder = 2_πr_2 + 2_πrh_ = 2_π_ * 62 + 2_π_ * 6 *9 = 180_π_

Quantitative Comparison Quantity A: The volume of a cylinder with a radius of 3 and a height of 4 Quantity B: 3 times the volume of a cone with a radius of 3 and a height of 4

The area of the base of a circular right cylinder is quadrupled. By what percentage is the outer face increased by this change?

A cylinder has a radius of 4 and a height of 8. What is its surface area?

This problem is simple if we remember the surface area formula!

What is the surface area of a cylinder with a radius of 17 and a height of 3?

Quantitative Comparison Quantity A: Surface area of a cylinder that is 2 feet high and has a radius of 4 feet Quantity B: Surface area of a box that is 3 feet wide, 2 feet high, and 4 feet long

Quantity A: SA of a cylinder = 2_πr_2 + 2_πrh_ = 2_π *_ 16 + 2_π_ * 4 * 2 = 48_π_ Quantity B: SA of a rectangular solid = 2_ab_ + 2_bc_ + 2_ac_ = 2 * 3 * 2 + 2 * 2 * 4 + 2 * 3 * 4 = 52 48_π_ is much larger than 52, because π is approximately 3.14.

What is the surface area of a cylinder that has a diameter of 6 inches and is 4 inches tall?

The formula for the surface area of a cylinder is , where is the radius and is the height.

A right circular cylinder of volume has a height of 8. Quantity A: 10 Quantity B: The circumference of the base

The area of the base of a circular right cylinder is quadrupled. By what percentage is the outer face increased by this change?

A cylinder has a radius of 4 and a height of 8. What is its surface area?

This problem is simple if we remember the surface area formula!

What is the surface area of a cylinder with a radius of 17 and a height of 3?

Quantitative Comparison Quantity A: Surface area of a cylinder that is 2 feet high and has a radius of 4 feet Quantity B: Surface area of a box that is 3 feet wide, 2 feet high, and 4 feet long

Quantity A: SA of a cylinder = 2_πr_2 + 2_πrh_ = 2_π *_ 16 + 2_π_ * 4 * 2 = 48_π_ Quantity B: SA of a rectangular solid = 2_ab_ + 2_bc_ + 2_ac_ = 2 * 3 * 2 + 2 * 2 * 4 + 2 * 3 * 4 = 52 48_π_ is much larger than 52, because π is approximately 3.14.

surface area of a cylinder

= 2_πr_2 + 2_πrh_

= 2_π_ * 62 + 2_π_ * 6 *9

= 180_π_

Quantitative Comparison

Quantity A: The volume of a cylinder with a radius of 3 and a height of 4

Quantity B: 3 times the volume of a cone with a radius of 3 and a height of 4

This problem is simple if we remember the surface area formula!

$SA = 2\pi $r^2$ +2\pi rh = 2\pi 16+2\pi 4*8 = 32\pi +64\pi = 96\pi$

Quantitative Comparison

Quantity A: Surface area of a cylinder that is 2 feet high and has a radius of 4 feet

Quantity B: Surface area of a box that is 3 feet wide, 2 feet high, and 4 feet long

Quantity A: SA of a cylinder = 2_πr_2 + 2_πrh_ = 2_π _ 16 + 2_π_ 4 * 2 = 48_π_

Quantity B: SA of a rectangular solid = 2_ab_ + 2_bc_ + 2_ac_ = 2 * 3 * 2 + 2 * 2 * 4 + 2 * 3 * 4 = 52

48_π_ is much larger than 52, because π is approximately 3.14.

The formula for the surface area of a cylinder is $\dpi{100} 2\pi $r^{2}$+ 2\pi rh$ ,

where is the radius and is the height.

$\dpi{100} SA=2\pi $(3)^{2}$+2\pi (3)(4)$

$\dpi{100} =42\pi$

A right circular cylinder of volume $200\pi$ has a height of 8.

Quantity A: 10

Quantity B: The circumference of the base

surface area of a cylinder

= 2_πr_2 + 2_πrh_

= 2_π_ * 62 + 2_π_ * 6 *9

= 180_π_

Quantitative Comparison

Quantity A: The volume of a cylinder with a radius of 3 and a height of 4

Quantity B: 3 times the volume of a cone with a radius of 3 and a height of 4

This problem is simple if we remember the surface area formula!

$SA = 2\pi $r^2$ +2\pi rh = 2\pi 16+2\pi 4*8 = 32\pi +64\pi = 96\pi$

Quantitative Comparison

Quantity A: Surface area of a cylinder that is 2 feet high and has a radius of 4 feet

Quantity B: Surface area of a box that is 3 feet wide, 2 feet high, and 4 feet long

Quantity A: SA of a cylinder = 2_πr_2 + 2_πrh_ = 2_π _ 16 + 2_π_ 4 * 2 = 48_π_

Quantity B: SA of a rectangular solid = 2_ab_ + 2_bc_ + 2_ac_ = 2 * 3 * 2 + 2 * 2 * 4 + 2 * 3 * 4 = 52

48_π_ is much larger than 52, because π is approximately 3.14.

The formula for the surface area of a cylinder is $\dpi{100} 2\pi $r^{2}$+ 2\pi rh$ ,

where is the radius and is the height.

$\dpi{100} SA=2\pi $(3)^{2}$+2\pi (3)(4)$

$\dpi{100} =42\pi$

A right circular cylinder of volume $200\pi$ has a height of 8.

Quantity A: 10

Quantity B: The circumference of the base

This problem is simple if we remember the surface area formula!

$SA = 2\pi $r^2$ +2\pi rh = 2\pi 16+2\pi 4*8 = 32\pi +64\pi = 96\pi$

Quantitative Comparison

Quantity A: Surface area of a cylinder that is 2 feet high and has a radius of 4 feet

Quantity B: Surface area of a box that is 3 feet wide, 2 feet high, and 4 feet long

Quantity A: SA of a cylinder = 2_πr_2 + 2_πrh_ = 2_π _ 16 + 2_π_ 4 * 2 = 48_π_

Quantity B: SA of a rectangular solid = 2_ab_ + 2_bc_ + 2_ac_ = 2 * 3 * 2 + 2 * 2 * 4 + 2 * 3 * 4 = 52

48_π_ is much larger than 52, because π is approximately 3.14.