Introduction to Graphs | Class 8 Mathematics Notes
By ConceptScroll Team · Published on 17 July 2026 · 4 min read

Introduction to Graphs – this guide gives you a concise, exam-ready overview of Introduction to Graphs from Class 8 Mathematics, written by ConceptScroll editors and reviewed against the latest NCERT textbook.
WHAT HAVE WE DISCUSSED?
This chapter introduced the concept of graphs as a visual representation of data, emphasizing their usefulness in understanding numerical information quickly and clearly. Key points discussed include: Graphical presentation of data is easier to comprehend than tabular data, especially when showing trends or comparisons. Line graphs display data that changes continuously over time and are constructed by plotting points and connecting them with line segments. A linear graph is a type of line graph where the points lie on a straight, unbroken line, indicating a direct proportionality between variables. To plot points on a graph sheet, both x-coordinate (independent variable) and y-coordinate (dependent variable) are required. The relationship between dependent and independent variables can be effectively shown through graphs, facilitating analysis of real-life situations such as temperature changes, sports performance, distance-time relations, cost calculations, and simple interest. The chapter also included exercises to practice plotting and interpreting graphs, reinforcing these concepts.
📊 Diagram: Summary references all previous figures and tables illustrating graph concepts.
🧪 Activity: Review and summarize key concepts learned about graphs and their applications.
🔗 Connection: This summary concludes the chapter and prepares students for advanced topics involving graphs in mathematics.
Frequently asked questions
1. The following graph shows the temperature of a patient in a hospital, recorded every hour. (a) What was the patient’s temperature at 1 p.m.? (b) When was the patient’s temperature 38.5°C? (c) The patient’s temperature was the same two times during the period given. What were these two times? (d) What was the temperature at 1.30 p.m.? How did you arrive at your answer? (e) During which periods did the patients’ temperature showed an upward trend?
Solution: (a) From the graph, the temperature at 1 p.m. is 38°C.
(b) The temperature was 38.5°C at 12 noon and 3 p.m.
(c) The temperature was the same at 12 noon and 3 p.m. (38.5°C).
(d) At 1.30 p.m., the temperature is between 38°C (at 1 p.m.) and 38.5°C (at 2 p.m.). By interpolation, it is approximately 38.25°C.
(e) The temperature showed an upward trend from 11 a.m. to 12 noon and from 2 p.m. to 3 p.m.
2. The following line graph shows the yearly sales figures for a manufacturing company. (a) What were the sales in (i) 2002 (ii) 2006? (b) What were the sales in (i) 2003 (ii) 2005? (c) Compute the difference between the sales in 2002 and 2006. (d) In which year was there the greatest difference between the sales as compared to its previous year?
Solution: (a)(i) Sales in 2002 = 20,000 units (from graph) (a)(ii) Sales in 2006 = 40,000 units
(b)(i) Sales in 2003 = 25,000 units (b)(ii) Sales in 2005 = 35,000 units
(c) Difference between sales in 2002 and 2006 = 40,000 - 20,000 = 20,000 units
(d) The greatest difference compared to previous year is between 2005 and 2006 (40,000 - 35,000 = 5,000 units).
3. For an experiment in Botany, two different plants, plant A and plant B were grown under similar laboratory conditions. Their heights were measured at the end of each week for 3 weeks. The results are shown by the following graph. (a) How high was Plant A after (i) 2 weeks (ii) 3 weeks? (b) How high was Plant B after (i) 2 weeks (ii) 3 weeks? (c) How much did Plant A grow during the 3rd week? (d) How much did Plant B grow from the end of the 2nd week to the end of the 3rd week? (e) During which week did Plant A grow most? (f) During which week did Plant B grow least? (g) Were the two plants of the same height during any week shown here? Specify.
Solution: (a)(i) Plant A after 2 weeks = 15 cm (a)(ii) Plant A after 3 weeks = 20 cm
(b)(i) Plant B after 2 weeks = 10 cm (b)(ii) Plant B after 3 weeks = 15 cm
(c) Growth of Plant A during 3rd week = 20 cm - 15 cm = 5 cm
(d) Growth of Plant B from 2nd to 3rd week = 15 cm - 10 cm = 5 cm
(e) Plant A grew most during the 3rd week (5 cm growth)
(f) Plant B grew least during the 1st week (growth less than other weeks)
(g) Both plants were of the same height at the start (week 0) and possibly at
4. The following graph shows the temperature forecast and the actual temperature for each day of a week. (a) On which days was the forecast temperature the same as the actual temperature? (b) What was the maximum forecast temperature during the week? (c) What was the minimum actual temperature during the week? (d) On which day did the actual temperature differ the most from the forecast temperature?
Solution: (a) Days when forecast temperature = actual temperature are Tuesday and Friday.
(b) Maximum forecast temperature during the week = 38°C (on Sunday).
(c) Minimum actual temperature during the week = 30°C (on Wednesday).
(d) The actual temperature differed most from forecast on Thursday.
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