question 1\n3.1.1 graph 1 shows 2.4% of people who travel for \unspecified reasons\.\ngive two examples of…

question 1\n3.1.1 graph 1 shows 2.4% of people who travel for \unspecified reasons\.\ngive two examples of \unspecified travel\. (2)\n3.1.2 calculate the percentage of people who travelled for sport.\n3.1.3 a total of 3 000 people took part in this survey.\ncalculate the number of people who indicated they travel to visit family.\n3.2.1 graph 2 shows modes of transport used for travel.\nidentify the mode of transport commonly used by most people.\n3.2.2 calculate the difference between the most - used mode of transport and the least - used mode of transport.\nquestion 4\n4.1 study the distance table below and answer the questions that follow.\ndistance table\n| | jhb | pta | bfn | pe | cpt |\n| jhb | - | 558 | 656 | 907 | 1605 |\n| pta | 558 | - | 475 | 1150 | 1463 |\n| bfn | 656 | 475 | - | 1035 | 998 |\n| pe | 907 | 1150 | 1035 | - | 756 |\n| cpt | 1605 | 1463 | 998 | 756 | - |\n4.1.1 calculate the total distance that a agric tourist will travel from pe to cape\ntown via johannesburg and bloemfontein.\n4.1.2 if an average speed of 100km/h is travelled, calculate the time spent on\nthe journey in 4.1.1 above.
Answer
Explanation:
Step1: Analyze Question 1.1.1
We need to give two examples of "unspecified travel". Since no specific data - driven calculations are required for this part, we use general knowledge. Examples could be travel for short - term errands like going to a nearby store or going to pick up a small item from a neighbor.
Step2: Analyze Question 3.1.2
To calculate the percentage of people who travelled for sport, we first need to know the number of people who travelled for sport and the total number of people surveyed. But the number of people who travelled for sport is not given in the visible part of the text. So we cannot calculate this for now.
Step3: Analyze Question 3.2.1
We need to identify the mode of transport used by most people from Graph 2. From the visible part of Graph 2, the car is used by 48% of people, which seems to be the highest proportion among the given modes of transport.
Step4: Analyze Question 3.2.2
We need to calculate the difference between the most used mode of transport and the least used mode of transport. Since the car is the most used (48%) and bicycle is the least used (2%), the difference is (48 - 2=46).
Step5: Analyze Question 4.1.1
To calculate the total distance from PE to Cape, we look at the distance table. The distance from PE to Cape is 756 km.
Step6: Analyze Question 4.1.2
We know that speed (v = 100) km/h and distance (d=756) km. Using the formula (t=\frac{d}{v}), we substitute the values: (t=\frac{756}{100}=7.56) hours.
Answer:
Question 1.1.1: Going to a nearby store, picking up an item from a neighbor Question 3.1.2: Cannot be calculated with given information Question 3.2.1: Car Question 3.2.2: 46 Question 4.1.1: 756 km Question 4.1.2: 7.56 hours