All categories

3 years ago

Helen ran 12 kilometers in 66 minutes she ran at the same speed the entire time how many kilometers did she run after 22 minutes

Mathematics

1 answer:

max2010maxim [7]3 years ago

5 0

She ran 4 kilometers

You might be interested in

A population of paramecia, P, can be modeled using the exponential

Ksivusya [100]

The appropriate domain of the population function is 0 ≤ t ≤ 14

<h3>How to determine the domain?</h3>

The function is given as:

P(t) = 3(2)^t

From the question, we understand that the maximum time is 2 weeks.

2 weeks in days is 14 days

This means that the function is valid for 14 days i.e. t = 0 to 14

Hence, the appropriate domain of the population function is 0 ≤ t ≤ 14

Read more about domain at:

brainly.com/question/1770447

#SPJ1

4 0

2 years ago

Pls help me solve this question

Vilka [71]

Answer:

The following picture that i drew on has the answer for the cost for 9 tickets.

Step-by-step explanation:

7 0

4 years ago

Point (8, 11); Slope =-1/4

Sunny_sXe [5.5K]

Answer:

Step-by-step explanation:

Point (8, 11); Slope =-1/4

y - y₁ = m(x - x₁)

y - 11 = (-1/4 ) (x - 8)

4 * (y -11) = -1 * (x -8)

4y - 44 = -x + 8

x - 8 + 4y - 44 = 0

x + 4y -52 = 0

7 0

3 years ago

A car can travel 247 kilometers on 19 liters of gasoline. how much gasoline will it need to go 429 kilometers?

7nadin3 [17]

find the number of miles per 1 liter:

247 kilometers / 19 liters = 13 kilometers per liter.

Divide how may kilometers they want to go by kilometers per liter:

429 kilometers / 13 kilometers per liter = 33 liters are needed.

6 0

3 years ago

The annount of time (in minutes) that it takes to put out a fire varies inversely

sveticcg [70]

Given that the amount of time varies inversely with G.

It can be written as,

$T G=K$

where K is the constant.

We need to determine the time it takes to put out the fire when 200 gallons of water are used.

<u>The value of constant:</u>

When $G=8, T=12$ , we get;

$(12)(8)=K$

$96=K$

Thus, the value of constant is 96.

<u>Time taken:</u>

Substituting $G=2$ and $K=96$ in the formula $T G=K$ , we get;

$T(2)=96$

$T=48$

Thus, the time taken to put out the fire using 200 gallons of water is 48 minutes.

Hence, Option B is the correct answer.

5 0

3 years ago