This is a Class Presentation For university Students. The Topic f this Presentation is that Electric Vs Petroleum Vehicles . By Using this u can easily Explain your topic in class presentation within 10 mints
4. Introduction:
• Electric vehicles (EVs) and internal
combustion engine vehicles (ICEs)
are two types of vehicles.
• Electric vehicles (EVs) and internal
combustion engine vehicles (ICEs)
are widely used today.
5. Introduction:
• Electric vehicle, which is a vehicle that is
powered by an electric motor rather
than a gasoline or diesel engine.
• ICEs which is a type of engine that runs
on gasoline, diesel, or other types of
fuel and uses a combination of heat and
pressure to produce power.
6. SWOT Analysis:
• Strengths
• EVs produce zero emissions, making them a clean and green alternative to
ICEVs.
• They require less maintenance and have fewer moving parts than ICEVs,
which can lead to lower overall cost of ownership.
• EVs have the potential to reduce dependence on fossil fuels, which
can have both environmental and economic benefits.
7. SWOT Analysis:
• Weaknesses:
• EVs typically have a shorter driving range than ICEVs, which can be a limitation
for some drivers.
• The infrastructure for charging EVs is not yet as developed as that for fueling
ICEVs, which can make it more difficult to find a charging station when on the
road.
• The upfront cost of EVs can be higher than that of ICEVs, which may make
them less accessible for some buyers.
8. SWOT Analysis:
• Opportunities:
• As technology improves and battery costs decrease, the range and
performance of EVs is expected to improve, making them more
competitive with ICEVs.
• Governments and private companies are investing in EV charging
infrastructure, which will make it easier for EV owners to charge their cars
on the road.
• As awareness of the environmental impact of ICEVs grows, more
consumers may choose to purchase EVs in the future.
9. SWOT Analysis:
• Threats:
• The cost of fossil fuels may decrease in the future, making ICEVs more
affordable and competitive with EVs.
• The lack of charging infrastructure in some areas may discourage some
consumers from purchasing EVs.
• Political and economic instability in countries that produce EVs could affect
their availability and price.
10. Examples:
• Tesla Model S is an example
of an EV with a long driving
range and high performance.
• The Toyota Camry is an example
of an ICE vehicle with a proven track
record and a wide range of models.
11. Advantages:
• Low operating costs: EVs are cheaper to operate than ICEs because they
have fewer moving parts and require less maintenance.
• Zero emissions: ICEs produce emission EVs produce zero emissions, which
makes them environmentally friendly.
• Quieter: EVs are much quieter than ICEs, which improves the driving
experience.
12. Disadvantage:
• Limited driving range: The driving range of EVs is typically less than that
of ICEs.
• Longer charging time: It takes longer to charge an EV than to fill up an ICE.
• Higher initial cost: The cost of EVs is still higher than that of ICEs.
13. Conclusion:
• EVs and ICEs have their own strengths and weaknesses, and which one is
better for you will depend on your specific needs and preferences.
• Regardless of which type of vehicle you choose, it is important to consider
the environmental and economic impacts of your decision. Thank you for
your attention.
• EVs are becoming more popular and practical as the technology improves
and charging infrastructure expands. However, ICEs will likely continue to
be the mainstay of the automotive industry for the foreseeable future.