Calculate the exact time, in hours, for the spacecraft to reach the star Ross.

Give your answer to part (a) in years. (Assume 1 year = 365 days)

Give your answer to part (b) in the form a×10^k, where 1 ≤ a < 10 and \(k \in \mathbb{Z}\).

\(\frac{{{\text{82 414 080 000 000}}}}{{48\;000}}\)     (M1)

Note: Award (M1) for correct substitution in correct formula.

1 716 960 000 (hours)     (A1)     (C2)

[2 marks]

\(\frac{{{\text{their (a)}}}}{{24 \times 365}}\)     (M1)

196 000 (years)     (A1)(ft)     (C2)

Note: Award (A1)(ft) from their part (a).

[2 marks]

1.96×10⁵     (A1)(ft)(A1)(ft)     (C2)

Note: Award (A1)(ft) for 1.96 (accept 1.96000), (A1)(ft) for 10⁵ . Follow through from their answer to part (b).

[2 marks]

(a) The large numbers given in the stem of this question led to some candidates being a factor of 10 out in their answer to part (a) and therefore losing at least the A mark. Errors were compounded in this first part of the question with some candidates dividing by 48000^–1 which effectively meant multiplying by 48000. Much good work, however, was seen in the remaining two parts of the question with candidates well able to show a correct standard form from their figures.

(a) The large numbers given in the stem of this question led to some candidates being a factor of 10 out in their answer to part (a) and therefore losing at least the A mark. Errors were compounded in this first part of the question with some candidates dividing by 48000^–1 which effectively meant multiplying by 48000. Much good work, however, was seen in the remaining two parts of the question with candidates well able to show a correct standard form from their figures.

(a) The large numbers given in the stem of this question led to some candidates being a factor of 10 out in their answer to part (a) and therefore losing at least the A mark. Errors were compounded in this first part of the question with some candidates dividing by 48000^–1 which effectively meant multiplying by 48000. Much good work, however, was seen in the remaining two parts of the question with candidates well able to show a correct standard form from their figures.