Practice Problems - 1.6 | 11.Exponential Growth and Decay | IB Class 10 Mathematics – Group 5, Algebra
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1.6 - Practice Problems

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Interactive Audio Lesson

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Introduction to Exponential Growth

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0:00
Teacher
Teacher

Today, we are going to delve into exponential growth. Remember, exponential growth means a quantity increases by a fixed percentage over regular intervals. Can anyone tell me the formula for calculating exponential growth?

Student 1
Student 1

Is it y = a(1 + r)^t?

Teacher
Teacher

Exactly! Here, 'a' represents your initial amount, 'r' is the growth rate as a decimal, and 't' is time. Let’s try an example together. If a town has 1,000 people and grows at 4% per year, how would we find its population after 10 years?

Student 2
Student 2

I think we need to calculate y using the formula you just mentioned!

Teacher
Teacher

Correct! You would substitute a = 1000, r = 0.04, and t = 10 into the formula. What do you get?

Student 3
Student 3

I got approximately 1,480 people!

Teacher
Teacher

Great job! And that’s how we apply the exponential growth formula.

Introduction to Exponential Decay

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0:00
Teacher
Teacher

Next, we’ll talk about exponential decay. When do we encounter decay in real life?

Student 4
Student 4

Maybe when a car or something loses value over time?

Teacher
Teacher

Exactly! Exponential decay happens when a quantity decreases by a fixed percentage. The formula is y = a(1 - r)^t. Let's apply it! If a phone battery starts at 100% and loses 20% of its charge every hour, what would be the charge left after 3 hours?

Student 1
Student 1

So, a = 100, r = 0.20, and t = 3, right? I can use those in the formula.

Teacher
Teacher

Yes! Substituting those values, what do you find?

Student 2
Student 2

I calculated about 51.2% left after 3 hours!

Teacher
Teacher

Fantastic! You've just illustrated exponential decay effectively.

Combining Growth and Decay Problems

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0:00
Teacher
Teacher

For example, in ecology, populations can grow while individual health may decline! How about we work on a new example together?

Student 3
Student 3

That sounds interesting! What would we do?

Teacher
Teacher

Let’s say a grapevine grows, and it initially has a growth rate of 10% per year, but due to pests, it loses 5% of its yield annually. Can someone attempt to set it up using our formulas for both growth and decay?

Student 4
Student 4

We would use growth for the initial year then adjust that value with the decay formula the next.

Teacher
Teacher

Exactly! You would calculate the growth for the first year, then apply the decay for the next. It’s a perfect mix of what we’ve learned!

Introduction & Overview

Read a summary of the section's main ideas. Choose from Basic, Medium, or Detailed.

Quick Overview

This section presents practice problems focused on exponential growth and decay concepts.

Standard

The practice problems designed for exponential growth and decay cover various scenarios such as population growth and financial depreciation. These problems encourage the application of formulas in real-world contexts.

Detailed

The section 'Practice Problems' consists of two sets of exercises: one focusing on exponential growth and another on exponential decay. The exercises require students to apply the specific formulas for exponential growth (y = a(1+r)^t) and decay (y = a(1−r)^t) to solve problems related to real-world situations, such as population changes and depreciation of asset values. By tackling these practice problems, students gain familiarity with identifying variables in contexts, calculating future values, and interpreting the results within a mathematical framework.

Audio Book

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Exponential Growth Practice Problems

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📝 Set 1 – Exponential Growth
1. A town has 1,000 people and grows at 4% per year. Find the population after 10 years.
2. A tree grows 5% taller each year. If it is 2 meters tall now, how tall will it be in 6 years.

Detailed Explanation

This set of practice problems focuses on exponential growth, where the quantity increases by a specific percentage over time. The first problem involves a town population increasing at an annual growth rate of 4%. To find the population after 10 years, we can use the formula for exponential growth:

𝑦 = 𝑎(1 + 𝑟)𝑡

where:
- 𝑎 is the initial population (1,000),
- 𝑟 is the growth rate as a decimal (0.04),
- 𝑡 is the number of years (10).

For the second problem, we need to calculate the height of a tree that grows at a rate of 5% annually. We apply the same formula to find the height after 6 years.

Examples & Analogies

Imagine a savings account that gains interest each year. If you start with $1,000 and your money increases by 4% annually, you can think of this as the town's population growing. Just like your savings account, the population increases each year, and after a decade, it will be significantly larger than when it started!

Exponential Decay Practice Problems

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📝 Set 2 – Exponential Decay
3. A phone battery loses 20% of its charge every hour. If the battery starts at 100%, how much charge is left after 3 hours?
4. A painting's value depreciates at 6% per year. If it’s worth $10,000 today, what will it be worth in 7 years?

Detailed Explanation

This set of practice problems focuses on exponential decay, where the quantity decreases by a specific percentage over time. The first problem deals with a phone battery that loses 20% of its charge each hour. We can use the exponential decay formula:

𝑦 = 𝑎(1 - 𝑟)𝑡

where:
- 𝑎 is the initial charge (100%),
- 𝑟 is the decay rate as a decimal (0.20),
- 𝑡 is the number of hours (3).

The second problem looks at a painting's worth, which depreciates at 6% per year. Using the same decay formula, we can determine what the painting will be valued at after 7 years.

Examples & Analogies

Think of a car's value over time. Just like a painting loses its value each year, so does the car. If you buy a car for $20,000 and it depreciates by 15% each year, its worth will keep getting lower - similar to how your phone battery drains after each use. Both situations highlight how things lose value or charge over time!

Definitions & Key Concepts

Learn essential terms and foundational ideas that form the basis of the topic.

Key Concepts

  • Exponential Growth: A consistent percentage increase in a quantity over time.

  • Exponential Decay: A consistent percentage decrease in a quantity over time.

  • Base (b): Determines whether growth or decay is occurring based on its value.

Examples & Real-Life Applications

See how the concepts apply in real-world scenarios to understand their practical implications.

Examples

  • Population growth of a town at 4% per year.

  • Depreciation of a car worth $20,000 at 15% per year.

Memory Aids

Use mnemonics, acronyms, or visual cues to help remember key information more easily.

🎵 Rhymes Time

  • In growth, we rise, in decay, we fall! Percentages guide us, we use the growth call!

📖 Fascinating Stories

  • Imagine a tree that grows every year, quickly and broadly, but when pests appear, its leaves disappear, representing decay.

🧠 Other Memory Gems

  • GRAPES: Growth Rate, Amount, Period, Exponential (for growth); decrease Rate, Amount, Period (for decay).

🎯 Super Acronyms

FAG

  • For growth

Flash Cards

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Glossary of Terms

Review the Definitions for terms.

  • Term: Exponential Growth

    Definition:

    A situation in which a quantity increases at a constant percentage over time.

  • Term: Exponential Decay

    Definition:

    A process in which a quantity decreases at a constant percentage over time.

  • Term: Initial Value (a)

    Definition:

    The starting quantity before any growth or decay occurs.

  • Term: Growth Rate (r)

    Definition:

    The percentage increase of a quantity in exponential growth.

  • Term: Decay Rate (r)

    Definition:

    The percentage decrease of a quantity in exponential decay.

  • Term: Time (t)

    Definition:

    The period over which growth or decay is measured.