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3 years ago

A meteor crater is 4400 feet in diameter. Approximate the distance around the crater. Using 3.14.

2 answers:

7 0

To find the distance around the crater we just multiply the diameter by 3.14

Soo..
4,400 x 3.14 = 13,816

So the distance around the crater is 13,816 feet

love, the Pineapple.
<3

SpyIntel [72]3 years ago

4 0

Finding the distance around the crater means you want to find the circumference. The equation for finding the circumference of a circle is

C = πd

C = circumference, d = diameter, π = 3.14 (approximately) 

Since our diameter is 4,400 feet, we must multiply 4,400 by π to get our circumference of approximately 13,816 feet

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4 years ago

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y = 23x + 182

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4 years ago

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I have a circular piece of fabric I am going to make a tablecloth. The radius of the fabric is 2 meters. What is the area of the

Bond [772]

Answer:

$4\pi$

12.57

Step-by-step explanation:

I have a circular piece of fabric I am going to make a tablecloth. The radius of the fabric is 2 meters. What is the area of the tablecloth I can make

Essentially, you are attempting to find the area of a circle with a radius of 2 meters.

The formula for an area of a circle is $\pi r^2$ , or pi times radius squared.

Plugging in 2 meters as your radius, that gets your answer to be $4\pi$ , or 12.57 in decimal.

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3 years ago

A ball with mass m kg is thrown upward with initial velocity 28 m/s from the roof of a building 17 m high. Neglect air resistanc

lina2011 [118]

Answer:

The ball will take 6.3 seconds to reach the maximum height and hit the ground.

Step-by-step explanation:

a). When a ball was thrown upwards with an initial velocity u then maximum height achieved h will be represented by the equation

v² = u² - 2gh

where v = final velocity at the maximum height h

and g = gravitational force

Now we plug in the values in the equation

At maximum height final velocity v = 0

0 = (28)² - 2×(9.8)h

19.6h = (28)²

h = $\frac{(28)^{2}}{19.6}$

= $\frac{784}{19.6}$

= 40 meter

B). If the ball misses the building and hits the ground then we have to find the time after which the ball hits the ground that will be

= Time to reach the maximum height + time to hit the ground from the maximum height

Time taken by the ball to reach the maximum height.

Equation to find the time will be v = u - gt

Now we plug in the values in the equation

0 = 28 - 9.8t

t = $\frac{28}{9.8}$

= 2.86 seconds

Now time taken by the ball to hit the ground from its maximum height.

H = ut + $\frac{1}{2}\times g\times (t)^{2}$

(17 + 40) = 0 + $\frac{1}{2}\times g\times (t)^{2}$

57 = 4.9(t)²

t² = $\frac{57}{4.9}$

t² = 11.63

t = √(11.63)

= 3.41 seconds

Now total time taken by the ball = 2.86 + 3.41

= 6.27 seconds

≈ 6.3 seconds

Therefore, the ball will take 6.3 seconds to reach the maximum height and hit the ground.

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4 years ago