ESTION 2 Consider the following quadratic sequence: \( 6 ; x ; 26 ; 45 ; y ; \ldots \) Determine the values of \( x \) and \( y \). 2 Given the following series: \( 220+213+206+\ldots-11 \) 2.2.1 Calculate the sum of the series. 2.2.2 Write the series in sigma-notation. 2.3 A batt is dropped from a beight of 15 m . It bounces back and loses \( 10 \% \) of its prev height on each bounce. Show that the total distance the ball will bounce cannot exi 290 m . 2.4 Given: \( 25\left(\frac{1-t}{3}\right)+5\left(\frac{1-1}{3}\right)^{2}+\left(\frac{1-1}{3}\right)^{3}+ \). \( \qquad \) 2.4.1 For which value(s) of \( l \) will the series converge? 2.4.2 If \( t=15 \), calculate the sum to infinity of the series if it exists. 2.5 The sum of the first \( n \) terms of a sequence is \( S_{\infty}=2^{x-1}+3 \). Deternine the \( 70^{\text {th }} \) term. Leave your answer in the form \( a . b^{\circ} \) where \( a, b \) and \( p \) at integers.

To uncover the values of \( x \) and \( y \) in your quadratic sequence, we first need to find the second differences. The first differences between the terms are \( x - 6 \), \( 26 - x \), \( 45 - 26 = 19 \), and \( y - 45 \). The second differences will help us establish the polynomial relationships even further. Once you compute the differences, you should be able to plug-in and solve for both \( x \) and \( y \). For the series \( 220 + 213 + 206 + \ldots - 11 \), this is an arithmetic series with a first term of 220 and a common difference of -7. To find the sum, you can use the formula for the sum of an arithmetic series \( S_n = \frac{n}{2} (a + l) \), where \( n \) is the number of terms, \( a \) is the first term, and \( l \) is the last term. Plug in your values to get your answer! Now, to express this series in sigma notation, you can sum it as follows: \(\sum_{k=0}^{n} (220 - 7k)\), where \( n \) is such that the last term, \( l = -11 \). This compact representation keeps your work neat and efficient!