Use the compound interest formula:
A = P(1+r/n)^(nt). Here, P = $25000, r = 0.02, t = 3 and n = 2.
Then:
A = $25000(1 + 0.02/2)^(3*2)
= $25000(1.01)^6
= $26538.00 (future value at the end of 3 years)
First you use the compound interest formula which is: A = P(1+r/n)^(nt).
Plug in the number in this case being P = $25000, r = 0.02, t = 3 and n = 2.
A = $25000(1 + 0.02/2)^(3*2)
= $25000(1.01)^6
= $26538.00 (future value at the end of 3 years)
3 inches of rain in 6 hours
B.2(-0.5)(1.7)
C. None of the above
Answer:
A&B
Step-by-step explanation: Khan
Answer:
22x5z8
Step-by-step explanation:
xz3*4x4z5
Final result :
22x5z8
Step by step solution :
Step 1 :
Equation at the end of step 1 :
(22xz3 • x4) • z5
Step 2 :
Multiplying exponential expressions :
2.1 z3 multiplied by z5 = z(3 + 5) = z8
Final result :
22x5z8
The given expression xz^3*4x^4z^5 can be simplified by adding the exponents of same variables when they are multiplied resulting in the simplified expression 4x^5z^8.
Yes, it's possible to simplify the expression xz^3*4x^4z^5. The rule here involves combining the same variables and adding their exponent parts. First, let's look at x terms. You have x in both terms, one is x^1 (since an x without any shown exponent has 1 as exponent) and another is x^4, so when you multiply them (x^1 * x^4), you add their exponents to get x^5. Similarly for the z term: you have z raised to the power of 3 in the first term and z raised to the power of 5 in the next. When you multiply them (z^3 * z^5), you add their exponents to get z^8. The constant 4 is also being multiplied here and is retained in the final answer. In conclusion, the simplified expression will be 4x^5z^8.
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