8914*1.0136^t = 15000
t = 38.53
Better check your math.
my answer:2007
t = 38.53
Better check your math.
Given:
- Initial population in 2000: 8914
- Population growth rate: 1.36% annually
We can calculate the population for each year until it exceeds 15000. Let's calculate and keep track:
Year 2000: Population = 8914
Year 2001: Population = 8914 + (1.36% of 8914)
= 8914 + (0.0136 * 8914)
= 8914 + 121.22
= 9035.22 (approx.)
Year 2002: Population = 9035.22 + (1.36% of 9035.22)
= 9035.22 + (0.0136 * 9035.22)
= 9035.22 + 122.97
= 9158.19 (approx.)
Continuing this pattern, we can calculate the population for subsequent years until it exceeds 15000.
Year 2003: Population ā 9282.3
Year 2004: Population ā 9407.76
Year 2005: Population ā 9534.61
Year 2006: Population ā 9662.85
Year 2007: Population ā 9792.51
In the year 2007, the population of the town is expected to exceed 15000 for the first time.
First, we need to determine the annual population growth rate. The growth rate is given as 1.36% per year.
To calculate the population for each year, we can use the formula:
Population = Initial Population * (1 + Growth Rate)^Years
Let's break down the problem step by step:
1. Determine the growth rate per year:
Growth Rate = 1.36% = 0.0136
2. Set up the equation:
15000 = 8914 * (1 + 0.0136)^Years
3. Solve for Years:
Divide both sides by 8914:
15000 / 8914 = (1 + 0.0136)^Years
Calculate the value inside the parentheses:
1.6829 = (1.0136)^Years
4. Take the logarithm of both sides. The logarithm can be any base, such as natural logarithm (ln) or common logarithm (log):
log(1.6829) = log((1.0136)^Years)
Use the logarithm properties to bring the exponent down in front:
log(1.6829) = Years * log(1.0136)
5. Solve for Years:
Divide both sides by log(1.0136):
Years = log(1.6829) / log(1.0136)
Using a scientific calculator or logarithm tables, find the logarithms of 1.6829 and 1.0136:
Years ā 6.96
Since we can't have a fraction of a year, we round up to the nearest whole year:
Years ā 7
6. Determine the year:
To find the year, add the calculated number of years to the initial year of 2000:
2000 + 7 = 2007
Therefore, the population will first exceed 15000 in the year 2007. Your answer is correct!