At the Custard Creamery, the cost of ice cream custard is directly proportional to its weight in ounces. Complete the equation of the graph with is constant of proportionality.

23 answers

Let's denote the cost of ice cream custard as C and the weight of the custard in ounces as W.

According to the given information, the cost of ice cream custard is directly proportional to its weight in ounces. This can be represented mathematically as:

C = k * W

where k is the constant of proportionality.

Therefore, the equation of the graph would be:

Cost of ice cream custard = k * Weight of custard in ounces
Why was there a large increase in the human population after the Industrial Revolution?
The Industrial Revolution, which began in the 18th century, brought about significant changes in technology, production, and lifestyle. These changes had a profound impact on the human population, resulting in a large increase. Here are some key factors that contributed to the population growth:

1. Agricultural advancements: The Industrial Revolution brought improvements in agricultural practices, including the adoption of new machinery, better irrigation systems, and advancements in crop rotation. These advancements increased agricultural productivity, leading to a surplus of food. As a result, more people could be supported by the agricultural sector, leading to population growth.

2. Advances in medicine and healthcare: The Industrial Revolution saw significant advancements in medical and healthcare practices. This included the development of vaccines, antibiotics, and improvements in hygiene practices. These advancements reduced mortality rates and improved overall healthcare, leading to a decrease in deaths and an increase in life expectancy. Consequently, the population grew.

3. Urbanization and migration: The Industrial Revolution witnessed a shift from rural to urban areas as industries and factories emerged in urban centers. This led to mass migrations of people from rural areas to cities in search of employment opportunities. Urbanization and population concentration in cities contributed to population growth.

4. Technological advancements: The Industrial Revolution brought about numerous technological innovations in transportation, communication, and manufacturing. The development of railways, steamships, and later automobiles facilitated transportation, making movement of goods and people more efficient. Along with improved communication infrastructure such as telegraphs, these advancements facilitated the exchange of ideas, resources, and products, further supporting population growth.

5. Economic opportunities: The Industrial Revolution created new economic opportunities as industries expanded and new sectors emerged. This, in turn, led to increased job opportunities and higher wages, attracting people from rural areas to urban centers. The availability of employment opportunities and the potential for economic prosperity drove population growth.

It is important to note that the population growth during the Industrial Revolution was not uniform across regions and countries. The extent and timing of population growth varied depending on factors such as industrialization rates, technological advancements, economic conditions, and government policies.
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The Industrial Revolution led to a large increase in the human population due to agricultural advancements, improvements in medicine and healthcare, urbanization and migration, technological advancements, and economic opportunities. The shift towards industrialization resulted in population growth through increased food production, reduced mortality rates, urbanization, technological innovations, and job opportunities.
What is one problem caused by a large human population?
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One problem caused by a large human population is resource depletion and strain on the environment.
What is an example of humans over-hunting an animal to extinction?
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The woolly mammoth is an example of an animal hunted to extinction by humans.
How did humans help prevent bison from being hunted to extinction?
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Humans helped prevent bison from being hunted to extinction through conservation efforts, such as establishing protected areas, implementing hunting regulations, and promoting sustainable practices.
What was the impact when humans diverted rivers flowing into the Aral sea and used the water to irrigate farmland?
When humans diverted rivers flowing into the Aral Sea and used the water to irrigate farmland, it resulted in the significant shrinking and ecological disaster of the Aral Sea, causing loss of biodiversity, habitat destruction, and negative impacts on local communities relying on the sea for their livelihoods.
What is one problem, discussed in the video, with humans using oil as an energy source?

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One problem with humans using oil as an energy source is the negative environmental impacts, including air pollution, greenhouse gas emissions, and contribution to climate change.
What are some alternatives to using oil and fossil fuels as an energy source?

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Some alternatives to using oil and fossil fuels as an energy source include renewable energy sources such as solar power, wind power, hydropower, geothermal energy, and the use of biofuels.
Explain ways in which scientists and engineers are helping to protect our planet?

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Scientists and engineers are helping to protect our planet through various means, including developing sustainable technologies, conducting research on environmental challenges, designing impactful conservation strategies, and providing solutions to mitigate climate change.
What is one type of scientist that helps save our planet and what do they do?

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Environmental scientists help save our planet by studying and analyzing environmental issues, conducting research on ecosystems, pollutants, and climate change, and recommending strategies for sustainable resource management and conservation.
How much water does Adam every year if taking a 10 minute shower a day?
To calculate how much water Adam uses every year by taking a 10-minute shower each day, we need to know the flow rate of the showerhead and multiply it by the number of showers per year.

Assuming an average showerhead flow rate of 2.5 gallons per minute (GPM), a 10-minute daily shower would use:

2.5 GPM * 10 minutes = 25 gallons per day.

To find the annual water usage, we multiply the daily usage by the number of days in a year:

25 gallons/day * 365 days = 9,125 gallons per year.

Therefore, if Adam takes a 10-minute shower every day, he would use approximately 9,125 gallons of water per year.