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NO LINKS!! How much money, invested at an interest rate of r% per year compounded continuously, will amount to A dollars after t years? (Round your answer to the nearest cent.) Part 3v​

NO LINKS How much money invested at an interest rate of r per year compounded continuously will amount to A dollars after t years Round your answer to the neare class=

Respuesta :

anunkit067

Answer:

$10,433.87 (nearest cent)

Step-by-step explanation:

Continuous Compounding Formula

\large \text{$ \sf A=Pe^{rt} $}A=Pe

rt

where:

A = Final amount.

P = Principal amount.

e = Euler's number (constant).

r = Annual interest rate (in decimal form).

t = Time (in years).

Given values:

A = $14,000

r = 4.9% = 0.049

t = 6 years

Substitute the given values into the formula and solve for P:

\implies \sf 14000=P \cdot e^{0.049 \cdot 6}⟹14000=P⋅e

0.049⋅6

\implies \sf 14000=P \cdot e^{0.288}⟹14000=P⋅e

0.288

\implies \sf P=\dfrac{14000}{e^{0.288}}⟹P=

e

0.288

14000

\implies \sf P=10433.8708...⟹P=10433.8708...

Therefore, the principal amount invested was $10,433.87 (nearest cent).

semsee45

Answer:

$10,433.87 (nearest cent)

Step-by-step explanation:

Continuous Compounding Formula

[tex]\large \text{$ \sf A=Pe^{rt} $}[/tex]

where:

  • A = Final amount.
  • P = Principal amount.
  • e = Euler's number (constant).
  • r = Annual interest rate (in decimal form).
  • t = Time (in years).

Given values:

  • A = $14,000
  • r = 4.9% = 0.049
  • t = 6 years

Substitute the given values into the formula and solve for P:

[tex]\implies \sf 14000=P \cdot e^{0.049 \cdot 6}[/tex]

[tex]\implies \sf 14000=P \cdot e^{0.288}[/tex]

[tex]\implies \sf P=\dfrac{14000}{e^{0.288}}[/tex]

[tex]\implies \sf P=10433.8708...[/tex]

Therefore, the principal amount invested was $10,433.87 (nearest cent).

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