TOPIC 7 OF 31

Need for Smaller Units

🎓 Class 7 Mathematics CBSE Theory Ch 3 — A Peek Beyond the Point ⏱ ~35 min

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3.1 The Need for Smaller Units

Sonu's mother was repairing a toy. She was trying to join two pieces with a screw. Sonu was closely observing. His mother could not fit the screw because it was not the right size. She took another screw from the box — but Sonu noticed the two screws looked identical in length. Yet when he held them together very carefully, he saw that they were actually of very slightly different lengths.

Sonu was fascinated by how such a small difference in length could matter so much. He wondered how we can know the difference in lengths. He was curious about how little the difference was, because the screws looked almost the same length.

When we need to compare or measure very small lengths, whole-number units^? like centimetres are not enough. We must use smaller units of measurement.

Screws placed above a scale — each lies between two centimetre marks

Think: Which scale helped you measure the length of the screws more accurately — the one marked only in centimetres, or the one divided into ten equal smaller parts? Why?

When the ruler is divided between two whole centimetres into 10 equal parts, each small part is \(\frac{1}{10}\) of one centimetre. Counting how many tenths a length contains gives a far more accurate reading.

The length of screw 1 was \(2\frac{1}{10}\) cm (read as two and one-tenth centimetres), and the length of screw 2 was \(2\frac{7}{10}\) cm (read as two and seven-tenth centimetres).

Key Idea

When exact measurements are needed, we use units smaller than the centimetre. Dividing one unit into 10 equal parts gives us tenths.

3.2 A Tenth Part

Look at a pencil whose length lies at the fourth small mark past 3 cm on a ruler divided into tenths. Its length is \(3\frac{4}{10}\) units, which can also be written as \((3 \times 1) + \left(4 \times \frac{1}{10}\right)\) units.

A pencil measuring 3 and 4 tenths units

Since 10 tenths make one whole, the expression \(3\frac{4}{10} = \frac{34}{10}\), read as thirty-four one-tenths.

\(34 \times \frac{1}{10} = \underbrace{\frac{1}{10}+\frac{1}{10}+\cdots}_{34\text{ times}} = 3 + 1 \times \frac{1}{10} \times 4 = 3\frac{4}{10}\)

A few fraction-in-tenths examples read aloud:

\(4\frac{1}{10}\) → "four and one-tenth" or "four-one tenths"
\(\frac{4}{10}\) → "four-tenths"
\(\frac{41}{10}\) → "forty-one tenths" or "forty-one one-tenths"
\(41\frac{1}{10}\) → "forty-one and one-tenth"

Definition — Tenth

A tenth^? is one of ten equal parts of a whole. It is written as the fraction \(\frac{1}{10}\). Ten tenths join together to make one whole: \(\frac{10}{10}=1\).

Working with Mixed Tenths — Sonu's Arm Length

Sonu is measuring his arm. His lower arm is \(2\frac{7}{10}\) units long, and his upper arm is \(3\frac{5}{10}\) units. What is the total length of his arm?

Combining \(2 + 3 = 5\) whole units, and \(\frac{7}{10}+\frac{5}{10}=\frac{12}{10}=1\frac{2}{10}\). So the arm is \(5+1\frac{2}{10} = 6\frac{2}{10}\) units.

Alternatively, write both as tenths: \(2\frac{7}{10}=\frac{27}{10}\) and \(3\frac{5}{10}=\frac{35}{10}\). Sum \(=\frac{62}{10}=6\frac{2}{10}\) units.

Activity: Measure With Tenths

L3 Apply

Materials: A ruler marked in centimetres and millimetres, a pencil, an eraser, a paper strip.

Predict: How many tenths of a centimetre long is your eraser? Estimate before you measure.

Place the pencil along the ruler so that one end rests on the zero mark.
Count the whole centimetres first. Then count how many tenth-marks the other end crosses past the last full centimetre.
Write the length as a mixed tenth, e.g. \(7\frac{3}{10}\) cm.
Repeat with the eraser and the paper strip. Compare results with a classmate.

A pencil is typically 14–18 cm. A standard eraser is 3–5 cm. If your numbers fall in these ranges, you are reading tenths correctly.

Figure it Out (Section 3.2)

Q1. Arrange in increasing order: \(\frac{9}{10},\ 1\frac{7}{10},\ \frac{130}{10},\ 13\frac{1}{10},\ 10\frac{5}{10},\ 7\frac{5}{10},\ 6\frac{7}{10},\ \frac{4}{10}\).

Convert each to tenths: \(9,\ 17,\ 130,\ 131,\ 105,\ 75,\ 67,\ 4\) tenths. Increasing order: \(\frac{4}{10},\ \frac{9}{10},\ 1\frac{7}{10},\ 6\frac{7}{10},\ 7\frac{5}{10},\ 10\frac{5}{10},\ \frac{130}{10},\ 13\frac{1}{10}\).

Q2. Sonu is measuring lengths of two bars. One is \(2\frac{2}{10}\) units; another is \(3\frac{5}{10}\) units. What is the total length?

Whole: \(2+3=5\). Tenths: \(\frac{2}{10}+\frac{5}{10}=\frac{7}{10}\). Total: \(5\frac{7}{10}\) units.

Competency-Based Questions

Scenario: A tailor is stitching uniforms and needs precise lengths. He measures cloth piece A as \(4\frac{3}{10}\) m and piece B as \(5\frac{8}{10}\) m. Piece C was cut \(\frac{16}{10}\) m shorter than piece B.

Q1. What is the length of piece C, expressed as a mixed number of tenths?

L3 Apply

\(5\frac{8}{10}-\frac{16}{10}=\frac{58-16}{10}=\frac{42}{10}=4\frac{2}{10}\) m.

Q2. The tailor joins pieces A and C. Without converting to decimals, analyse whether the joined length exceeds piece B.

L4 Analyse

A + C = \(4\frac{3}{10}+4\frac{2}{10}=8\frac{5}{10}\) m. Piece B is \(5\frac{8}{10}\) m. So \(8\frac{5}{10}>5\frac{8}{10}\); joined length exceeds piece B by \(2\frac{7}{10}\) m.

Q3. A ruler shows only centimetres but not tenths. Evaluate whether such a ruler is adequate to distinguish piece A (\(4\frac{3}{10}\) m) from a piece of \(4\frac{6}{10}\) m. Justify.

L5 Evaluate

No. Both lengths round to the same whole-centimetre mark between 4 and 5, so a ruler without tenth divisions cannot tell them apart. Tenth-divisions are essential to catch the 3-tenth difference.

Q4. Design a simple paper-ruler (from 0 to 5 units) that shows tenths clearly. Sketch it and label the marks \(\frac{3}{10}, 1\frac{7}{10}, 4\frac{5}{10}\).

L6 Create

A valid answer: divide each unit interval into 10 equal sub-parts using short tick marks. Mark 0.3 at the third tick after 0, 1.7 at the seventh tick after 1, 4.5 at the fifth tick after 4. Longer ticks may mark whole units, medium ticks halves, shortest ticks tenths.

Assertion–Reason Questions

A: The length \(\frac{41}{10}\) is the same as \(4\frac{1}{10}\).
R: Any improper fraction whose numerator is 10 more than 10 times the integer part equals the corresponding mixed tenth.

(a) Both true, R explains A.

(b) Both true, R does not explain A.

(d) A false, R true.

(a) — \(\frac{41}{10}=\frac{40+1}{10}=4+\frac{1}{10}=4\frac{1}{10}\). R provides the general reason.

A: A centimetre ruler divided only into cm marks can measure \(2\frac{3}{10}\) cm exactly.
R: Any length that is not a whole centimetre needs a smaller unit to be read precisely.

(a) Both true, R explains A.

(b) Both true, R does not explain A.

(d) A false, R true.

(d) — A is false (you cannot read 3/10 precisely on a cm-only ruler). R is true and actually explains why A is false.

Frequently Asked Questions

Why do we need smaller units in Class 7 Maths?

Whole numbers cannot express quantities between integers, such as half a metre or 0.3 litres. Smaller units - tenths, hundredths, thousandths - let us measure and calculate precisely. NCERT Class 7 Ganita Prakash Chapter 3 introduces this need for decimals.

What is a tenth in decimals?

A tenth is one part when a whole is divided into 10 equal parts. It is written as 0.1 or 1/10. Three tenths is 0.3 or 3/10. NCERT Class 7 Ganita Prakash Chapter 3 starts decimals with tenths because they bridge whole numbers and fractions.

How are decimals related to fractions?

Decimals are a way of writing fractions whose denominators are powers of 10. For example, 3/10 = 0.3, 7/100 = 0.07, 9/1000 = 0.009. NCERT Class 7 Ganita Prakash Chapter 3 builds this connection throughout the chapter.

Where is the decimal point placed?

The decimal point separates the whole-number part from the fractional part. Digits to the left show ones, tens, hundreds; digits to the right show tenths, hundredths, thousandths. NCERT Class 7 Chapter 3 stresses correct placement.

Why is 0.5 equal to 1/2?

0.5 means 5 tenths, which equals 5/10. Simplifying 5/10 by dividing top and bottom by 5 gives 1/2. So 0.5 and 1/2 name the same number. NCERT Class 7 Ganita Prakash Chapter 3 uses such equivalences to build number sense.

What everyday examples need smaller units?

Money (paisa = 1/100 of a rupee), length (cm = 1/100 of a metre), weight (gram = 1/1000 of a kg), and time all require smaller units. NCERT Class 7 Ganita Prakash Chapter 3 connects decimals to these familiar contexts.

Frequently Asked Questions — A Peek Beyond the Point

What is Need for Smaller Units in NCERT Class 7 Mathematics?

Need for Smaller Units is a key concept covered in NCERT Class 7 Mathematics, Chapter 3: A Peek Beyond the Point. This lesson builds the student's foundation in the chapter by explaining the core ideas with worked examples, definitions, and step-by-step methods aligned to the CBSE curriculum.

How do I solve problems on Need for Smaller Units step by step?

To solve problems on Need for Smaller Units, follow the NCERT method: identify the given quantities, choose the relevant formula or theorem, substitute values carefully, and simplify. Class 7 exercises gradually increase in difficulty — start with solved NCERT examples before attempting exercise questions, and always verify your answer by substitution or diagram.

What are the most important formulas for Chapter 3: A Peek Beyond the Point?

The essential formulas of Chapter 3 (A Peek Beyond the Point) are listed in the chapter summary and highlighted throughout the lesson in formula boxes. Memorise them and practise at least 2–3 problems per formula. CBSE board exams frequently test direct application as well as combined use of multiple formulas from this chapter.

Is Need for Smaller Units important for the Class 7 board exam?

Need for Smaller Units is part of the NCERT Class 7 Mathematics syllabus and appears in CBSE board exams. Questions typically include short-answer, long-answer, and competency-based items. Review the NCERT examples, exercise questions, and previous-year board problems on this topic to prepare confidently.

What mistakes should students avoid in Need for Smaller Units?

Common mistakes in Need for Smaller Units include skipping steps, misapplying formulas, sign errors, and losing track of units. Write each step clearly, double-check algebraic manipulations, and re-read the question after solving to verify that your answer matches what was asked.

Where can I find more NCERT practice questions on Need for Smaller Units?

End-of-chapter NCERT exercises for Need for Smaller Units cover all difficulty levels tested in CBSE exams. After completing them, try the examples again without looking at the solutions, attempt the NCERT Exemplar questions for Chapter 3, and solve at least one previous-year board paper to consolidate your understanding.

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