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國立成功大學 國際經營管理研究所 許介文所指導 湯睿意的 The Underlying Factors of How Information Sharing on Twitter Could Lead to Fake News During Times ofSocio-Economic Crisis (2021),提出Honda LEAD 125 2022關鍵因素是什麼,來自於。
而第二篇論文國立臺灣海洋大學 食品安全與風險管理研究所 蕭心怡所指導 黃芊里的 乳酸菌細菌素、苯乳酸及電解水組合應用於冷藏白蝦儲存之研究 (2021),提出因為有 冷藏蝦仁、乳酸鏈球菌素、苯乳酸、電解水、反應曲面法的重點而找出了 Honda LEAD 125 2022的解答。
The Underlying Factors of How Information Sharing on Twitter Could Lead to Fake News During Times ofSocio-Economic Crisis
為了解決Honda LEAD 125 2022 的問題,作者湯睿意 這樣論述:
Researchers at the Massachusetts Institute of Technology found that fake news spreads faster on Twitter than real news. Increased digital use has led to spread of fake news on social media platforms, especially on Twitter, where a single tweet can instantly form a flow of information. The present s
tudy investigated the underlying factors that could contribute to the spread of fake news on Twitter during socio-economic crises by referring to the Rumor theory as its theoretical foundation. The socio-economic crises under analysis in this study are the COVID-19 Anti-Vaccination Movement, and the
exacerbated Australian Bushfire Crisis, which both have affected businesses and enterprises on a large scale. By utilizing Twitter API, relevant tweets during the said socio-economic crises were collected and these factors determined how tweets were coded: anxiety, ambiguous source, ambiguous conte
nt, user’s personal involvement, and social interactions. Finally, logistics regression analysis took place to predict the likelihood of fake news spread due to the factors mentioned. The aim of this research is to uncover what factors contribute to spread of fake news, as well as discern the most s
ignificant factor that could lead to spread of fake news on social networking platforms - specifically on Twitter.
乳酸菌細菌素、苯乳酸及電解水組合應用於冷藏白蝦儲存之研究
為了解決Honda LEAD 125 2022 的問題,作者黃芊里 這樣論述:
腸炎弧菌為台灣最常見食品病原菌之一,常見於之未加工、未煮熟與煮熟之海鮮。乳酸菌為一般公認安全的微生物,能生產多種抗菌物質,其中乳酸鏈球菌素 (Nisin) 與苯乳酸 (Ph - LA) 能抑制食品病原菌與腐敗菌,若結合螯合劑 EDTA 則能抑制革蘭氏陰性菌生長;酸性電解水常運用在食品與食品加工設備清潔用亦有抗菌效果,但目前尚未有研究結合乳酸鏈球菌素、苯乳酸與電解水合併使用於水產品之相關實驗。本研究旨探討 乳酸菌胞外物質抗菌劑 (Nisin、Ph - LA) 與電解水結合之抗菌特性,用於抑制熟蝦中腸炎弧菌生長與延長生蝦仁保存期限。結果顯示,在抗菌方面 Nisin 濃度 500、1000 mg/
mL 時,加入 EDTA 可增加 P. fluorescens、L. monocytogenes 與 S. aureus 抑菌環大小 (p < 0.05),另外,在125 mg/mL Ph - LA 加 EDTA 會加強對革蘭氏陰性菌 V. parahaemolyticus、E. coli、P. fluorescens 效果;結合 Nisin、Ph-LA 與電解水可讓 S. aureus 的最低抑制濃度下降至 12.5 mg/mL,對 L. monocytogenes 與 P. fluorescens 的最低致死濃度降到 25 mg/mL;在乳酸菌胞外物質抗菌劑的部分,利用反應曲面法的建議得出
最佳抑制腸炎弧菌的抗菌組合濃度為 Nisin 150 mg/mL + Ph - LA 150 mg/mL + EDTA 30 mM;在乳酸菌胞外物質抗菌劑應用於熟蝦仁抗腸炎弧菌的部分,效果最佳的抗菌組別為 Nisin 150 mg/mL + Ph - LA 150 mg/mL + EDTA 30 mM + Electrolyzed Water 100 ppm,其次為 Nisin 75 mg/mL + Ph - LA 75 mg/mL + EDTA 30 mM + Electrolyzed Water 100 ppm;對於生蝦仁貯存結果顯示最佳的抗菌組別是 Nisin 150 mg/mL + P
h - LA 150 mg/mL + EDTA 30 mM + Electrolyzed Water 100 ppm 可抑制總生菌數不生長 6 天,在第十二天菌數為 2.74 log CFU/g,其次是 Nisin 150 mg/mL + Ph - LA 150 mg/mL + EDTA 30 mM可抑制總生菌數不生長 4 天在第十二天菌數為 3.8 log CFU/g。綜觀上述結果可知,依本次實驗結果可知將乳酸菌胞外物質抗菌劑與電解水一同使用有協同作用可用來抑制腸炎弧菌及用於生蝦仁的保存。