Zeke ran 4 1/2 miles around the track. Each lap is 1/2 of a mile. How many laps did Zeke
run?
Answers
Answer:
Zeke ran 9 laps.
Step-by-step explanation:
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123A5/61/89 011 1213/141516In the figure, plly and "||s. Match each pair of congruent angles with the reason for their congruency.corresponding angles forparallel lines p and q cut bythe transversalrcorresponding angles forparallel lines r and s cut bythe transversal aVertical Angles TheoremLinear Pair Theorem25 2132125210 214213 = 216corresponding angles forparallel lines p and q cut bythe transversal s
What is 1/3 of 225,000
A bowl holds 100 peanuts . how many bowls would hold a million peanuts?
Answers
Answer:
432 ft^2
Step-by-step explanation:
Answer:
432
Step-by-step explanation:
Lets plug it into the formula
b1 should be the horizontal line on the bottom horizontal line and b2 should be the top horizontal line
so we get b1 = 28 and b2 = 20
according to the formula we should add b1 and b2, getting us 48.
divide 48 by 2: we get 24
24 times h, or the hieght, or 18 is 432
so the answer is 432
could you pls give me brainliest? I only need 1 more brainliest to rank up ;-;
a. w=P-21
b. w=P-1
c. w=P-21/2
d. w=P+21/2
Answers
Perimeter = 2Length + 2Width
Perimeter - 2Length = 2Width
(Perimeter - 2Lenght) / 2 = Width
Answer is C. w = P - 2l/2
Answer:
The answer is the option C
Step-by-step explanation:
we know that
The perimeter of a rectangle is equal to
where
L ----> is the length side of rectangle
W ----> is the width side of the rectangle
Solve for W
That means -------> isolate the variable W
Divide by both sides
Subtract both sides
ASAP PLEASE HELP!
Answers
Answer:-24
Hope it helps
Answers
Answer:
The first reactant takes approximately 147 seconds to reach half its initial concentration, while the second reactant takes approximately 214.5 seconds for the same reduction, based on their half-lives and initial concentrations.
Step-by-step explanation:
The rate constant (k) for a first-order reaction can be calculated using the formula:
k = (0.693) / t_half
For the first set of data:
k₁ = (0.693) / 147 s ≈ 0.00472 s⁻¹
For the second set of data:
k₂ = (0.693) / 215 s ≈ 0.00322 s⁻¹
Now, you can use these rate constants to calculate the time it takes for each reactant to reach a certain concentration. For example, if you want to find the time it takes for the first reactant (initial concentration = 0.294 M) to reduce to 0.147 M (half its initial concentration), you can use the following equation for a first-order reaction:
ln(C_t / C₀) = -kt
Where:
C_t = concentration at time t
C₀ = initial concentration
k = rate constant
t = time
For the first reactant:
ln(0.147 / 0.294) = -0.00472t
Solving for t:
t ≈ 147 seconds
For the second reactant (initial concentration = 0.201 M) to reduce to 0.1005 M (half its initial concentration):
ln(0.1005 / 0.201) = -0.00322t
Solving for t:
t ≈ 214.5 seconds
So, it takes approximately 147 seconds for the first reactant to reach half its initial concentration, and approximately 214.5 seconds for the second reactant to do the same, based on their respective half-lives and initial concentrations.
Quotient:
Remainder:
Answers
Remainder: 8/19
B : Colon
C : Small intestine
D : Appendix
Answers
Answer:
c
Step-by-step explanation: