Latest news with #Diagnostics
Edmunds
3 days ago
- Automotive
- Edmunds
P0133: Oxygen Sensor Slow Response (Bank 1, Sensor 1)
What does the P0133 error code mean? The P0133 check engine diagnostic trouble code stands for "Oxygen Sensor Slow Response (Bank 1, Sensor 1)." The presence of this code indicates that the powertrain control module is no longer receiving signals from the oxygen sensor located on bank 1, sensor 1, quickly or frequently enough for the car to run optimally. This code may also be present on certain vehicles if there is a failure on bank 1, sensor 2. Why is this issue important? Oxygen sensors in your car are sensors able to detect the oxygen content in the exhaust gases leaving the car's engine. These gases are read and transmitted to the car's powertrain control module. From there, the powertrain control module uses this information to regulate the amount of fuel injected into the engine before the air and fuel mixture inside the engine's cylinder is ignited by the spark plugs. Usually, the result is a check engine light and other symptoms of an engine running poorly, like rough idling. Can I safely drive my car with this error code? Depending on the severity of the fault, it may be possible to drive with a P0133 code. However, the code does not always indicate the severity of the issue, and you should avoid driving if possible. The delayed sensor response may cause poor fuel economy and slight performance issues. More importantly, if the air-fuel mixture becomes too rich (meaning there's too much fuel and not enough air) or too lean (meaning the opposite), it could lead to engine misfires or damage. Common symptoms of the P0133 error code Illuminated check engine light Poor fuel economy Rough idling or hesitation Engine misfires Slower acceleration Black smoke from the exhaust How is the P0133 error code diagnosed? Use an OBD-II scanner : Retrieve the P0133 code and check for any related trouble codes. : Retrieve the P0133 code and check for any related trouble codes. Inspect the oxygen sensor wiring : Look for damaged, corroded or loose connections to the O2 sensor. : Look for damaged, corroded or loose connections to the O2 sensor. Test the oxygen sensor : Use a multimeter or scan tool to measure the sensor's voltage fluctuations to determine if it responds slowly. : Use a multimeter or scan tool to measure the sensor's voltage fluctuations to determine if it responds slowly. Check for vacuum leaks : Unmetered air entering the engine can affect sensor readings and lead to the P0133 error code. : Unmetered air entering the engine can affect sensor readings and lead to the P0133 error code. Inspect the fuel system: Issues such as a clogged fuel injector or a faulty fuel pressure regulator can potentially impact the air-fuel mixture and trigger the error code. How is the P0133 error code repaired? Replace the affected oxygen sensor. Repair or replace damaged wiring and connectors associated with the O2 sensor. Fix vacuum leaks that could be affecting sensor readings. Clean or replace clogged fuel injectors to restore the correct fuel ratio. Related reading On-board diagnostics (OBD-II) and diagnostic trouble codes are part of your car's self-diagnostic system. The five-character alphanumeric code identifies the part and problem. Check out Edmunds' growing database of diagnostic trouble code information here.
Yahoo
4 days ago
- Business
- Yahoo
Epigenetics Diagnostics Market Analysis 2025-2034: Oncology Led with 68.7% Share in 2024, Driven by Demand for Early and Precise Cancer Detection Through Epigenetic Markers
The market, dominated by DNA methylation, sees significant contributions from North America, with the U.S. leading. Major players include Thermo Fisher Scientific, Illumina, and Roche Diagnostics, focusing on innovative tools that enhance precision medicine. Epigenetics Diagnostics Market Dublin, June 17, 2025 (GLOBE NEWSWIRE) -- The "Epigenetics Diagnostics Market Opportunity, Growth Drivers, Industry Trend Analysis, and Forecast 2025-2034" report has been added to Global Epigenetics Diagnostics Market was valued at USD 15.5 billion in 2024 and is estimated to grow at a CAGR of 16.5% to reach USD 70.7 billion by 2034. The market is gaining momentum due to the rising awareness of how epigenetic mechanisms contribute to disease development, especially in complex and chronic conditions. The continuous evolution of diagnostic technologies is another key factor driving growth. Increasing cases of chronic illnesses and cancer globally have created a pressing demand for early and accurate detection methods. This, in turn, has fueled the need for advanced epigenetic biomarkers and testing assays. Additionally, the expanding use of next-generation sequencing technologies and AI-powered analytics has significantly improved the efficiency and scalability of epigenetic diagnostics. The growing preference for non-invasive procedures like liquid biopsies has further encouraged market adoption. Collaborations among pharmaceutical manufacturers, research bodies, and diagnostics firms are increasing to develop safer and more effective diagnostic tools. These initiatives are helping accelerate the transition of epigenetic diagnostics from research labs to mainstream clinical use. With heightened interest in precision medicine, the industry is seeing a sharp focus on the development of highly accurate and scalable solutions that support early intervention and personalized treatment market centers on technologies used to detect and analyze epigenetic markers, including DNA methylation and histone modifications, which are pivotal in identifying disease risks and progression. These diagnostics offer valuable insights for early-stage diagnosis and treatment planning across a range of conditions, including cancer and neurological disorders. Based on product type, the market is segmented into instruments, kits and reagents, and software and services. In 2024, the kits and reagents category led the market with a valuation of USD 7.6 billion. These products are integral to routine diagnostic workflows and are extensively used in clinical settings, academic research, and pharmaceutical development. Their ease of use, reliability, and compatibility with automated and high-throughput systems such as PCR and sequencing platforms make them widely preferred. Continuous improvements in assay sensitivity and integration with advanced technologies are driving further adoption. Additionally, the increasing emphasis on environmentally sustainable and cost-effective reagent development has enhanced accessibility, particularly in developing terms of application, the epigenetics diagnostics market is split between oncology and non-oncology diagnostics. The oncology diagnostics segment commanded a dominant share of 68.7% in 2024. This growth is propelled by the demand for early and precise cancer detection using epigenetic markers. DNA methylation and histone changes are commonly linked to various forms of cancer and serve as effective indicators for early diagnosis. The rising number of cancer cases, coupled with the shift toward personalized therapies, has heightened interest in epigenetic diagnostics. Awareness campaigns and initiatives promoting early detection and treatment are also playing a pivotal role in expanding this on technology, the market includes DNA methylation, histone methylation, microRNA modification, chromatin structure analysis, and other methods. DNA methylation dominated the landscape with a value of USD 6.3 billion in 2024 and is projected to reach USD 28.5 billion by 2034. This segment's strength lies in its capacity to identify disease-specific methylation markers, enabling earlier and more accurate diagnoses. Techniques like bisulfite sequencing, methylation-specific PCR, and array-based assays have advanced the precision of methylation studies, allowing for more effective disease monitoring. Integration of these methods with next-generation sequencing tools continues to improve test sensitivity and throughput, making them increasingly valuable in both research and clinical end user, the market is divided into hospitals and clinics, pharmaceutical and biotechnology companies, diagnostic laboratories, and others. Hospitals and clinics led the market in 2024 and are expected to reach USD 25.9 billion by 2034. These institutions play a vital role in deploying epigenetic testing for diagnostics, prognosis, and treatment monitoring. Their infrastructure and expertise allow for comprehensive testing and interpretation, including genetic counseling and interdisciplinary collaboration. The trend toward precision medicine has further boosted demand within hospitals, which often serve as central hubs for patient care and advanced North America held the largest share in 2024, accounting for 39.7% of the global market. The U.S. alone was valued at USD 5.4 billion in the same year. Factors contributing to the region's dominance include robust healthcare infrastructure, high investments in genomic research, and increased adoption of precision diagnostics. Government initiatives and funding support, especially from research bodies, have helped accelerate innovation in epigenetics. The growing burden of chronic diseases and a strong emphasis on non-invasive diagnostics continue to propel demand in the companies - Thermo Fisher Scientific, Illumina, QIAGEN, Agilent Technologies, and Roche Diagnostics - collectively held around 65% of the market share. These firms stay ahead through continuous innovations in sequencing systems, methylation detection tools, and integrated bioinformatics. Their expanding portfolios, including single-cell analysis and targeted panels, align with the rising demand for tailored diagnostic Market Analysis and Forecast Industry trends, key growth drivers, challenges, future opportunities, and regulatory landscape Competitive landscape with Porter's Five Forces and PESTEL analysis Market size, segmentation, and regional forecasts In-depth company profiles, business strategies, financial insights, and SWOT analysis Key Attributes Report Attribute Details No. of Pages 133 Forecast Period 2024-2034 Estimated Market Value (USD) in 2024 $15.5 Billion Forecasted Market Value (USD) by 2034 $70.7 Billion Compound Annual Growth Rate 16.5% Regions Covered Global Key Topics CoveredChapter 1 Methodology and Scope1.1 Market scope and definitions1.2 Research design1.2.1 Research approach1.2.2 Data collection methods1.3 Base estimates and calculations1.3.1 Base year calculation1.3.2 Key trends for market estimation1.4 Forecast model1.5 Primary research and validation1.5.1 Primary sources1.5.2 Data mining sourcesChapter 2 Executive Summary2.1 Industry 360 degree synopsisChapter 3 Industry Insights3.1 Industry ecosystem analysis3.2 Industry impact forces3.2.1 Growth drivers3.2.1.1 Increasing prevalence of cancer and chronic diseases3.2.1.2 Advancements in epigenomics research and technology3.2.1.3 Growing demand for non-invasive diagnostics3.2.2 Industry pitfalls and challenges3.2.2.1 High cost of epigenetic diagnostics technologies3.2.2.2 Limited standardization of testing methods3.3 Growth potential analysis3.4 Regulatory landscape3.5 Trump administration tariffs3.5.1 Impact on trade3.5.1.1 Trade volume disruptions3.5.1.2 Retaliatory measures3.5.2 Impact on the Industry3.5.2.1 Supply-side impact (raw materials)3.5.2.1.1 Price volatility in key materials3.5.2.1.2 Supply chain restructuring3.5.2.1.3 Production cost implications3.5.2.2 Demand-side impact (selling price)3.5.2.2.1 Price transmission to end markets3.5.2.2.2 Market share dynamics3.5.2.2.3 Consumer response patterns3.5.3 Key companies impacted3.5.4 Strategic industry responses3.5.4.1 Supply chain reconfiguration3.5.4.2 Pricing and product strategies3.5.4.3 Policy engagement3.5.5 Outlook and future considerations3.6 Technological landscape3.7 Future market trends3.8 Porter's analysis3.9 PESTEL analysisChapter 4 Competitive Landscape, 20244.1 Introduction4.2 Company market share analysis4.3 Company matrix analysis4.4 Competitive analysis of major market players4.5 Competitive positioning matrix4.6 Strategy dashboardChapter 5 Market Estimates and Forecast, by Product, 2021-2034 ($ Mn)5.1 Key trends5.2 Kits and reagents5.3 Instruments5.4 Software and servicesChapter 6 Market Estimates and Forecast, by Application, 2021-2034 ($ Mn)6.1 Key trends6.2 Oncology diagnostics6.3 Non-oncology diagnosticsChapter 7 Market Estimates and Forecast, by Technology, 2021-2034 ($ Mn)7.1 Key trends7.2 DNA methylation7.3 Histone methylation7.4 MicroRNA modification7.5 Chromatin structures7.6 Other technologiesChapter 8 Market Estimates and Forecast, by End Use, 2021-2034 ($ Mn)8.1 Key trends8.2 Hospital and clinics8.3 Pharmaceutical and biotechnology companies8.4 Diagnostic laboratories8.5 Other end useChapter 9 Market Estimates and Forecast, by Region, 2021-2034 ($ Mn)9.1 Key trends9.2 North America9.2.1 U.S.9.2.2 Canada9.3 Europe9.3.1 Germany9.3.2 UK9.3.3 France9.3.4 Spain9.3.5 Italy9.3.6 Netherlands9.4 Asia-Pacific9.4.1 China9.4.2 Japan9.4.3 India9.4.4 Australia9.4.5 South Korea9.5 Latin America9.5.1 Brazil9.5.2 Mexico9.5.3 Argentina9.6 Middle East and Africa9.6.1 South Africa9.6.2 Saudi Arabia9.6.3 UAEChapter 10 Company Profiles10.1 Abcam10.2 Agilent Technologies10.3 Diagenode10.4 Dovetail Genomics10.5 Element Biosciences10.6 Illumina10.7 Merck10.8 New England Biolabs10.9 PacBio10.10 Promega10.11 QIAGEN10.12 Roche Diagnostics10.13 Thermo Fisher Scientific10.14 Zymo Research For more information about this report visit About is the world's leading source for international market research reports and market data. We provide you with the latest data on international and regional markets, key industries, the top companies, new products and the latest trends. Attachment Epigenetics Diagnostics Market CONTACT: CONTACT: Laura Wood,Senior Press Manager press@ For E.S.T Office Hours Call 1-917-300-0470 For U.S./ CAN Toll Free Call 1-800-526-8630 For GMT Office Hours Call +353-1-416-8900Error in retrieving data Sign in to access your portfolio Error in retrieving data Error in retrieving data Error in retrieving data Error in retrieving data
Yahoo
4 days ago
- Business
- Yahoo
Epigenetics Diagnostics Market Analysis 2025-2034: Oncology Led with 68.7% Share in 2024, Driven by Demand for Early and Precise Cancer Detection Through Epigenetic Markers
The market, dominated by DNA methylation, sees significant contributions from North America, with the U.S. leading. Major players include Thermo Fisher Scientific, Illumina, and Roche Diagnostics, focusing on innovative tools that enhance precision medicine. Epigenetics Diagnostics Market Dublin, June 17, 2025 (GLOBE NEWSWIRE) -- The "Epigenetics Diagnostics Market Opportunity, Growth Drivers, Industry Trend Analysis, and Forecast 2025-2034" report has been added to Global Epigenetics Diagnostics Market was valued at USD 15.5 billion in 2024 and is estimated to grow at a CAGR of 16.5% to reach USD 70.7 billion by 2034. The market is gaining momentum due to the rising awareness of how epigenetic mechanisms contribute to disease development, especially in complex and chronic conditions. The continuous evolution of diagnostic technologies is another key factor driving growth. Increasing cases of chronic illnesses and cancer globally have created a pressing demand for early and accurate detection methods. This, in turn, has fueled the need for advanced epigenetic biomarkers and testing assays. Additionally, the expanding use of next-generation sequencing technologies and AI-powered analytics has significantly improved the efficiency and scalability of epigenetic diagnostics. The growing preference for non-invasive procedures like liquid biopsies has further encouraged market adoption. Collaborations among pharmaceutical manufacturers, research bodies, and diagnostics firms are increasing to develop safer and more effective diagnostic tools. These initiatives are helping accelerate the transition of epigenetic diagnostics from research labs to mainstream clinical use. With heightened interest in precision medicine, the industry is seeing a sharp focus on the development of highly accurate and scalable solutions that support early intervention and personalized treatment market centers on technologies used to detect and analyze epigenetic markers, including DNA methylation and histone modifications, which are pivotal in identifying disease risks and progression. These diagnostics offer valuable insights for early-stage diagnosis and treatment planning across a range of conditions, including cancer and neurological disorders. Based on product type, the market is segmented into instruments, kits and reagents, and software and services. In 2024, the kits and reagents category led the market with a valuation of USD 7.6 billion. These products are integral to routine diagnostic workflows and are extensively used in clinical settings, academic research, and pharmaceutical development. Their ease of use, reliability, and compatibility with automated and high-throughput systems such as PCR and sequencing platforms make them widely preferred. Continuous improvements in assay sensitivity and integration with advanced technologies are driving further adoption. Additionally, the increasing emphasis on environmentally sustainable and cost-effective reagent development has enhanced accessibility, particularly in developing terms of application, the epigenetics diagnostics market is split between oncology and non-oncology diagnostics. The oncology diagnostics segment commanded a dominant share of 68.7% in 2024. This growth is propelled by the demand for early and precise cancer detection using epigenetic markers. DNA methylation and histone changes are commonly linked to various forms of cancer and serve as effective indicators for early diagnosis. The rising number of cancer cases, coupled with the shift toward personalized therapies, has heightened interest in epigenetic diagnostics. Awareness campaigns and initiatives promoting early detection and treatment are also playing a pivotal role in expanding this on technology, the market includes DNA methylation, histone methylation, microRNA modification, chromatin structure analysis, and other methods. DNA methylation dominated the landscape with a value of USD 6.3 billion in 2024 and is projected to reach USD 28.5 billion by 2034. This segment's strength lies in its capacity to identify disease-specific methylation markers, enabling earlier and more accurate diagnoses. Techniques like bisulfite sequencing, methylation-specific PCR, and array-based assays have advanced the precision of methylation studies, allowing for more effective disease monitoring. Integration of these methods with next-generation sequencing tools continues to improve test sensitivity and throughput, making them increasingly valuable in both research and clinical end user, the market is divided into hospitals and clinics, pharmaceutical and biotechnology companies, diagnostic laboratories, and others. Hospitals and clinics led the market in 2024 and are expected to reach USD 25.9 billion by 2034. These institutions play a vital role in deploying epigenetic testing for diagnostics, prognosis, and treatment monitoring. Their infrastructure and expertise allow for comprehensive testing and interpretation, including genetic counseling and interdisciplinary collaboration. The trend toward precision medicine has further boosted demand within hospitals, which often serve as central hubs for patient care and advanced North America held the largest share in 2024, accounting for 39.7% of the global market. The U.S. alone was valued at USD 5.4 billion in the same year. Factors contributing to the region's dominance include robust healthcare infrastructure, high investments in genomic research, and increased adoption of precision diagnostics. Government initiatives and funding support, especially from research bodies, have helped accelerate innovation in epigenetics. The growing burden of chronic diseases and a strong emphasis on non-invasive diagnostics continue to propel demand in the companies - Thermo Fisher Scientific, Illumina, QIAGEN, Agilent Technologies, and Roche Diagnostics - collectively held around 65% of the market share. These firms stay ahead through continuous innovations in sequencing systems, methylation detection tools, and integrated bioinformatics. Their expanding portfolios, including single-cell analysis and targeted panels, align with the rising demand for tailored diagnostic Market Analysis and Forecast Industry trends, key growth drivers, challenges, future opportunities, and regulatory landscape Competitive landscape with Porter's Five Forces and PESTEL analysis Market size, segmentation, and regional forecasts In-depth company profiles, business strategies, financial insights, and SWOT analysis Key Attributes Report Attribute Details No. of Pages 133 Forecast Period 2024-2034 Estimated Market Value (USD) in 2024 $15.5 Billion Forecasted Market Value (USD) by 2034 $70.7 Billion Compound Annual Growth Rate 16.5% Regions Covered Global Key Topics CoveredChapter 1 Methodology and Scope1.1 Market scope and definitions1.2 Research design1.2.1 Research approach1.2.2 Data collection methods1.3 Base estimates and calculations1.3.1 Base year calculation1.3.2 Key trends for market estimation1.4 Forecast model1.5 Primary research and validation1.5.1 Primary sources1.5.2 Data mining sourcesChapter 2 Executive Summary2.1 Industry 360 degree synopsisChapter 3 Industry Insights3.1 Industry ecosystem analysis3.2 Industry impact forces3.2.1 Growth drivers3.2.1.1 Increasing prevalence of cancer and chronic diseases3.2.1.2 Advancements in epigenomics research and technology3.2.1.3 Growing demand for non-invasive diagnostics3.2.2 Industry pitfalls and challenges3.2.2.1 High cost of epigenetic diagnostics technologies3.2.2.2 Limited standardization of testing methods3.3 Growth potential analysis3.4 Regulatory landscape3.5 Trump administration tariffs3.5.1 Impact on trade3.5.1.1 Trade volume disruptions3.5.1.2 Retaliatory measures3.5.2 Impact on the Industry3.5.2.1 Supply-side impact (raw materials)3.5.2.1.1 Price volatility in key materials3.5.2.1.2 Supply chain restructuring3.5.2.1.3 Production cost implications3.5.2.2 Demand-side impact (selling price)3.5.2.2.1 Price transmission to end markets3.5.2.2.2 Market share dynamics3.5.2.2.3 Consumer response patterns3.5.3 Key companies impacted3.5.4 Strategic industry responses3.5.4.1 Supply chain reconfiguration3.5.4.2 Pricing and product strategies3.5.4.3 Policy engagement3.5.5 Outlook and future considerations3.6 Technological landscape3.7 Future market trends3.8 Porter's analysis3.9 PESTEL analysisChapter 4 Competitive Landscape, 20244.1 Introduction4.2 Company market share analysis4.3 Company matrix analysis4.4 Competitive analysis of major market players4.5 Competitive positioning matrix4.6 Strategy dashboardChapter 5 Market Estimates and Forecast, by Product, 2021-2034 ($ Mn)5.1 Key trends5.2 Kits and reagents5.3 Instruments5.4 Software and servicesChapter 6 Market Estimates and Forecast, by Application, 2021-2034 ($ Mn)6.1 Key trends6.2 Oncology diagnostics6.3 Non-oncology diagnosticsChapter 7 Market Estimates and Forecast, by Technology, 2021-2034 ($ Mn)7.1 Key trends7.2 DNA methylation7.3 Histone methylation7.4 MicroRNA modification7.5 Chromatin structures7.6 Other technologiesChapter 8 Market Estimates and Forecast, by End Use, 2021-2034 ($ Mn)8.1 Key trends8.2 Hospital and clinics8.3 Pharmaceutical and biotechnology companies8.4 Diagnostic laboratories8.5 Other end useChapter 9 Market Estimates and Forecast, by Region, 2021-2034 ($ Mn)9.1 Key trends9.2 North America9.2.1 U.S.9.2.2 Canada9.3 Europe9.3.1 Germany9.3.2 UK9.3.3 France9.3.4 Spain9.3.5 Italy9.3.6 Netherlands9.4 Asia-Pacific9.4.1 China9.4.2 Japan9.4.3 India9.4.4 Australia9.4.5 South Korea9.5 Latin America9.5.1 Brazil9.5.2 Mexico9.5.3 Argentina9.6 Middle East and Africa9.6.1 South Africa9.6.2 Saudi Arabia9.6.3 UAEChapter 10 Company Profiles10.1 Abcam10.2 Agilent Technologies10.3 Diagenode10.4 Dovetail Genomics10.5 Element Biosciences10.6 Illumina10.7 Merck10.8 New England Biolabs10.9 PacBio10.10 Promega10.11 QIAGEN10.12 Roche Diagnostics10.13 Thermo Fisher Scientific10.14 Zymo Research For more information about this report visit About is the world's leading source for international market research reports and market data. We provide you with the latest data on international and regional markets, key industries, the top companies, new products and the latest trends. Attachment Epigenetics Diagnostics Market CONTACT: CONTACT: Laura Wood,Senior Press Manager press@ For E.S.T Office Hours Call 1-917-300-0470 For U.S./ CAN Toll Free Call 1-800-526-8630 For GMT Office Hours Call +353-1-416-8900
Edmunds
4 days ago
- Automotive
- Edmunds
P0505: Idle Control System Malfunction
What does the P0505 error code mean? The diagnostic trouble code P0505 means your car has detected an 'Idle Control System Malfunction.' The code triggers when the idle air control system goes bad in some way. There are a number of faults that can cause this code, including a vacuum leak. When your car's primary computer, or powertrain control module, detects a fault with the idle air control system, it will notify the driver via this diagnostic trouble code as well as a check engine light. Why is this issue important? The idle control system relies on an idle air control valve, typically located on or near your car's throttle body. It does what it says on the box: When your car idles, the throttle is closed, which limits the air supply heading into the engine. The engine does still need some air to keep going, however, and at the request of the car's powertrain control module, the idle control system will open a bypass air system that allows a little air into the engine to keep it running. This, too, can be adjusted by the system, allowing more or less air in as needed while the car is at idle. Can I safely drive my car with this error code? It could be possible to drive a short distance with a P0505 code, but it'll certainly be difficult if not downright hazardous. The faulty idling system will most likely present itself in the form of stalls, with your engine shutting down once it reaches an idle or when you stop hitting the gas pedal. It's best not to drive the car while this code is active — the car may end up stalled somewhere you don't want to be. Common symptoms of the P0505 error code Engine stalling at idle High or low idle speed Trouble starting your car The check engine light is on How is the P0505 error code diagnosed? Code verification : Use an OBD-II scanner to confirm the presence of the P0505 (or related) code. : Use an OBD-II scanner to confirm the presence of the P0505 (or related) code. Visual inspection : Inspect your engine's intake system for vacuum leaks, damaged hoses or loose connections. : Inspect your engine's intake system for vacuum leaks, damaged hoses or loose connections. Idle air control valve test : Inspect and test the idle air control valve for carbon buildup or electrical failure. : Inspect and test the idle air control valve for carbon buildup or electrical failure. Throttle body inspection : The mechanic will examine the throttle body for dirt or debris that may affect airflow. : The mechanic will examine the throttle body for dirt or debris that may affect airflow. Wiring and connector check : Inspect electrical wiring and connectors leading to the idle air control valve for corrosion or damage. : Inspect electrical wiring and connectors leading to the idle air control valve for corrosion or damage. Check powertrain control module functionality: The mechanic will test the powertrain control module outputs to see if all physical components appear to be in working order. How is the P0505 error code repaired? Clean or replace the idle air control valve if clogged or faulty. Repair or replace damaged vacuum hoses or intake components. Fix or replace any corroded or broken wiring or connectors. Reprogram or replace the powertrain control module if it is found to be defective. Clear the code and test the vehicle to ensure symptoms are removed. Related reading On-board diagnostics (OBD-II) and diagnostic trouble codes are part of your car's self-diagnostic system. The five-character alphanumeric code identifies the part and problem. Check out Edmunds' growing database of diagnostic trouble code information here.
Yahoo
02-06-2025
- Automotive
- Yahoo
Eagers Automotive's (ASX:APE) Returns On Capital Are Heading Higher
To find a multi-bagger stock, what are the underlying trends we should look for in a business? Amongst other things, we'll want to see two things; firstly, a growing return on capital employed (ROCE) and secondly, an expansion in the company's amount of capital employed. This shows us that it's a compounding machine, able to continually reinvest its earnings back into the business and generate higher returns. So when we looked at Eagers Automotive (ASX:APE) and its trend of ROCE, we really liked what we saw. AI is about to change healthcare. These 20 stocks are working on everything from early diagnostics to drug discovery. The best part - they are all under $10bn in marketcap - there is still time to get in early. For those that aren't sure what ROCE is, it measures the amount of pre-tax profits a company can generate from the capital employed in its business. The formula for this calculation on Eagers Automotive is: Return on Capital Employed = Earnings Before Interest and Tax (EBIT) ÷ (Total Assets - Current Liabilities) 0.18 = AU$538m ÷ (AU$5.5b - AU$2.4b) (Based on the trailing twelve months to December 2024). So, Eagers Automotive has an ROCE of 18%. In absolute terms, that's a pretty normal return, and it's somewhat close to the Specialty Retail industry average of 16%. View our latest analysis for Eagers Automotive In the above chart we have measured Eagers Automotive's prior ROCE against its prior performance, but the future is arguably more important. If you're interested, you can view the analysts predictions in our free analyst report for Eagers Automotive . Eagers Automotive is displaying some positive trends. The numbers show that in the last five years, the returns generated on capital employed have grown considerably to 18%. Basically the business is earning more per dollar of capital invested and in addition to that, 31% more capital is being employed now too. This can indicate that there's plenty of opportunities to invest capital internally and at ever higher rates, a combination that's common among multi-baggers. Another thing to note, Eagers Automotive has a high ratio of current liabilities to total assets of 44%. This can bring about some risks because the company is basically operating with a rather large reliance on its suppliers or other sorts of short-term creditors. Ideally we'd like to see this reduce as that would mean fewer obligations bearing risks. To sum it up, Eagers Automotive has proven it can reinvest in the business and generate higher returns on that capital employed, which is terrific. And a remarkable 199% total return over the last five years tells us that investors are expecting more good things to come in the future. Therefore, we think it would be worth your time to check if these trends are going to continue. On a final note, we found 3 warning signs for Eagers Automotive (1 is significant) you should be aware of. If you want to search for solid companies with great earnings, check out this free list of companies with good balance sheets and impressive returns on equity. Have feedback on this article? Concerned about the content? Get in touch with us directly. Alternatively, email editorial-team (at) article by Simply Wall St is general in nature. We provide commentary based on historical data and analyst forecasts only using an unbiased methodology and our articles are not intended to be financial advice. It does not constitute a recommendation to buy or sell any stock, and does not take account of your objectives, or your financial situation. We aim to bring you long-term focused analysis driven by fundamental data. Note that our analysis may not factor in the latest price-sensitive company announcements or qualitative material. Simply Wall St has no position in any stocks mentioned. Error in retrieving data Sign in to access your portfolio Error in retrieving data Error in retrieving data Error in retrieving data Error in retrieving data
