Advertisements
Advertisements
प्रश्न
Find the missing entries from the following.
| x | 0 | 1 | 2 | 3 | 4 | 5 |
| y = f(x) | 0 | - | 8 | 15 | - | 35 |
उत्तर
Since four values of f(x) are given we assume the polynomial of degree three.
Hence fourth-order differences are zeros.
i.e. Δ4y0 = 0
i.e. (E – 1)4yk = 0
(E4 – 4E3 + 6E2 – 4E + 1)yk = 0 ........(1)
Put k = 0 in (1)
(E4 – 4E3 + 6E2 – 4E + 1)y0 = 0
E4y0 – 4E3y0 + 6E3y0 – 4Ey0 + y0 = 0
y4 – 4y3 + 6y2 – 4y1 + y0 = 0
y4 – 4(15) + 6(8) – 4y1 + 0 = 0
y4 – 4y1 = 12 .......(2)
Put k = 1 in eqn (1)
(E4 – 4E3 + 6E2 – 4E + 1) y1 = 0
y5 – 4y4 + 6y3 – 4y2 + y1 = 0
35 – 4(y4) + 6(15) – 4(8) + y1 = 0
35 – 4y4 + 90 – 32 + y1 = 0
– 4y4 + y1 + 125 – 32 = 0
– 4y4 + y1 = – 93 ........(3)
Solving equation (2) and (3)
Equation (2) × 4 ⇒ 4y4 – 16y1 = 48
Equation (3) ⇒ – 4y4 + y1 = – 93
– 15y1 = – 45
y1 = `(-45)/(-15) = 45/15` = 3
⇒ y1 = 3
Substitute y = 3 in equation (2)
y4 – 4(3) = 12
y4 – 12 = 12
y4 = 12 + 12
∴ y4 = 24
The required two missing entries are 3 and 24.
APPEARS IN
संबंधित प्रश्न
Evaluate Δ(log ax)
If f(x) = x2 + 3x than show that Δf(x) = 2x + 4
Find the missing entry in the following table
| x | 0 | 1 | 2 | 3 | 4 |
| yx | 1 | 3 | 9 | - | 81 |
Following are the population of a district
| Year (x) | 1881 | 1891 | 1901 | 1911 | 1921 | 1931 |
| Population (y) Thousands |
363 | 391 | 421 | - | 467 | 501 |
Find the population of the year 1911
Choose the correct alternative:
If h = 1, then Δ(x2) =
Choose the correct alternative:
If ‘n’ is a positive integer Δn[Δ-n f(x)]
Choose the correct alternative:
E f(x) =
Choose the correct alternative:
∇ ≡
Prove that (1 + Δ)(1 – ∇) = 1
Prove that EV = Δ = ∇E
