Answer:
If it doesn’t equal two one gallon it would be greater than. So it’s less than.

PLEASE HELPWhich is the function represented by the table?

Which is the equation of an ellipse centered at the origin with foci on x-axis, x-intercepts +7, -7 and y-intercepts +2, -2?

Factorise : 64a cube minus 27b cube minus 144a square b plus 108ab square . Plz Answer this question

Suppose that weekly income of migrant workers doing agricultural labor in Florida has a distribution with a mean of $520 and a standard deviation of $90. A researcher randomly selected a sample of 100 migrant workers. What is the probability that sample mean is less than $500

What is the value of x in the equation 8+4 = 2(x-1)?511/213/27

Which is the equation of an ellipse centered at the origin with foci on x-axis, x-intercepts +7, -7 and y-intercepts +2, -2?

Factorise : 64a cube minus 27b cube minus 144a square b plus 108ab square . Plz Answer this question

Suppose that weekly income of migrant workers doing agricultural labor in Florida has a distribution with a mean of $520 and a standard deviation of $90. A researcher randomly selected a sample of 100 migrant workers. What is the probability that sample mean is less than $500

What is the value of x in the equation 8+4 = 2(x-1)?511/213/27

For June:

Bike:

(4) * (3 1/4) = 13 miles

Swim:

(4) * (2 1/2) = 10 miles

Total:

13 + 10 = 23 miles

For July:

Bike:

(3) * (4 3/4) = 14.25 miles

Swim:

(3) * (3 1/2) = 10.5 miles

Total:

14.25 + 10.5 = 24.75 miles

The difference between both months is:

24.75 - 23 = 1.75 miles

**Answer:**

**the total distance Cameron bike and swim in July compared to the total distance he bike in swim in June was 1.75 miles greater**

Bike:

(4) * (3 1/4) = 13 miles

Swim:

(4) * (2 1/2) = 10 miles

Total:

13 + 10 = 23 miles

For July:

Bike:

(3) * (4 3/4) = 14.25 miles

Swim:

(3) * (3 1/2) = 10.5 miles

Total:

14.25 + 10.5 = 24.75 miles

The difference between both months is:

24.75 - 23 = 1.75 miles

The tie was marked down by 40%

The exponential function **representing** the bacteria population after t hours is f(t) = 2000 * e^(ln(0.5)/3 * t).

To find the exponential function that represents the size of the **bacteria** population after t hours, we can use the formula N = N0 * e^(kt), where N0 is the initial **population**, e is Euler's number (approximately 2.71828), k is the growth/decay constant, and t is the time in hours.

In this case, the **initial** population N0 is 2,000 and the population after 3 hours is 1,000. Plugging these values into the formula, we get:

N = 2000 * e^(3k) = 1000

Solving for k, we find k = ln(0.5)/3. Therefore, the **exponential** function representing the bacteria population after t hours is f(t) = 2000 * e^(ln(0.5)/3 * t).

#SPJ3

The **exponential** decay function representing the bacteria population after t hours is f(t) = 2000 × 0.5^(t/3), where t is the number of hours passed.

The student has observed a population of bacteria decreasing from 2,000 to 1,000 over three hours and seeks an **exponential function** to model the decay of the population over time, expressed as *f(t)*. Since the population is halving every three hours, we can represent this with the function **f(t) = 2000 × 0.5^(t/3)**, where 2000 is the initial population, 0.5 represents the halving, and t is the time in hours. The exponent (t/3) is used because the halving occurs every three hours.

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Step-by-step explanation:

Confidence interval = 90% = 0.90.

1 - 0.90 = 0.10

Mean of 15 batch:

724+718+776+760+745+759+795+756+742+740+761+749+739+747+742 = 11253/15

= 750.2

Mean of second batch:

735+775+729+755+783+760+738+780

= 6055/8

= 756.875

Sd = 20

Z-alpha/2 = 1.64

= (750.2-756.875)-1.64*√20²/15 + 20²/8

= -21.0348

(750.2-756.875)+1.64*√20²/15 + 20²/8

= 7.68

2. The upper limit of the interval is less than 10 so in conclusion the difference in mean batch viscosity is about 10 or less than 10

**Answer:**

**The velocity of the pitcher is −0.1 m/s**

**Step-by-step explanation:**

**Given : **Mass of pitcher = 50 kg

** ** Mass of Baseball= 0.15kg

** ** Velocity of Ball = 35m/s

**To Find : **velocity of the pitcher

**Solution :**

The total momentum of the system is conserved when no external force acts on a system .The total initial momentum of the system is equal to the total final momentum of the system.

Since , the ball and the pitcher are initially at rest, therefore, the total initial momentum of the system is zero.

**Since we are given that no external forces act on the system , the total final momentum of the system is also equal to zero.**

**Let us suppose the mass of the pitcher is **

**Speed of pitcher = **

**The mass of the ball is **

**Speed of ball = **

So, the final momentum of the system of pitcher and the ball is given by:

**⇒**

⇒

⇒

⇒

Thus , The velocity of the pitcher is -0.105m/s≈−0.1 m/s

Negative sign shows the opposite direction.

**Hence The velocity of the pitcher is −0.1 m/s**

the answer is -0.1 m/s if you're looking for the Edgnuity answer. I just took the test. Hope this helps!

**Answer:**

-4.2

**Step-by-step explanation:**

To divide 26.04 by -6.2, you can follow these steps: **Multiply** both numbers by 10 to eliminate decimal places. Divide the resulting numbers. The answer is 4.24.

To divide 26.04 by -6.2, you can follow these steps:

**Multiply**both the dividend and divisor by 10 to eliminate the decimal places. You will get -262.4 divided by -62.- Divide the numbers as usual. -262.4 divided by -62 equals 4.24.

Therefore, 26.04 divided by -6.2 is equal to 4.24.

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