Effect of the cement filling speed on unconfined compressive strength q_u and uniformity (C_v): (a) Changes in qu and C_v with increasing number of in... by Xiaoyan Ding (291429)

Subjects:

Distribution of the unconfined compressive strength of specimens at different positions under different filling speeds: (a) Working condition M1; (b) Working condition M2; (c) Work... by Xiaoyan Ding (291429)

Subjects:

Summary statistics. by Stephan Dietrich (6979985)

“…Suprisingly, we find that income pathways accounts for only a small proportion of wellbeing damages caused by extreme temperatures. …”

Month of interview by world region. by Stephan Dietrich (6979985)

“…Suprisingly, we find that income pathways accounts for only a small proportion of wellbeing damages caused by extreme temperatures. …”

Effect by world bank income classification. by Stephan Dietrich (6979985)

“…Suprisingly, we find that income pathways accounts for only a small proportion of wellbeing damages caused by extreme temperatures. …”

Marginal effect of additional hot day on SWB. by Stephan Dietrich (6979985)

“…Suprisingly, we find that income pathways accounts for only a small proportion of wellbeing damages caused by extreme temperatures. …”

Income satisfaction measure. by Stephan Dietrich (6979985)

“…Suprisingly, we find that income pathways accounts for only a small proportion of wellbeing damages caused by extreme temperatures. …”

Marginal effect of HTD on income and SWB. by Stephan Dietrich (6979985)

“…Suprisingly, we find that income pathways accounts for only a small proportion of wellbeing damages caused by extreme temperatures. …”

Estimation procedure flow-chart. by Stephan Dietrich (6979985)

“…Suprisingly, we find that income pathways accounts for only a small proportion of wellbeing damages caused by extreme temperatures. …”

Structural model outline. by Stephan Dietrich (6979985)

“…Suprisingly, we find that income pathways accounts for only a small proportion of wellbeing damages caused by extreme temperatures. …”

Numerical simulation data. by Qingsong Zhang (3353270)

“…Initially, the decay follows a logarithmic pattern, whereas, at later stages, the attenuation exhibits a gradual and smooth decrease. As the frequency increases, the initial attenuation amplitude of electromagnetic wave intensity rises; however, subsequent attenuation is largely unaffected by frequency, with the later attenuation rate being proportional to porosity. …”

Fig 4 - by Qingsong Zhang (3353270)

“…Initially, the decay follows a logarithmic pattern, whereas, at later stages, the attenuation exhibits a gradual and smooth decrease. As the frequency increases, the initial attenuation amplitude of electromagnetic wave intensity rises; however, subsequent attenuation is largely unaffected by frequency, with the later attenuation rate being proportional to porosity. …”

Porosity model. by Qingsong Zhang (3353270)

“…Initially, the decay follows a logarithmic pattern, whereas, at later stages, the attenuation exhibits a gradual and smooth decrease. As the frequency increases, the initial attenuation amplitude of electromagnetic wave intensity rises; however, subsequent attenuation is largely unaffected by frequency, with the later attenuation rate being proportional to porosity. …”

Signal intensity curves at 0.2 and 0.4 porosity. by Qingsong Zhang (3353270)

“…Initially, the decay follows a logarithmic pattern, whereas, at later stages, the attenuation exhibits a gradual and smooth decrease. As the frequency increases, the initial attenuation amplitude of electromagnetic wave intensity rises; however, subsequent attenuation is largely unaffected by frequency, with the later attenuation rate being proportional to porosity. …”

Interior diagram of goaf simulation platform. by Qingsong Zhang (3353270)

“…Initially, the decay follows a logarithmic pattern, whereas, at later stages, the attenuation exhibits a gradual and smooth decrease. As the frequency increases, the initial attenuation amplitude of electromagnetic wave intensity rises; however, subsequent attenuation is largely unaffected by frequency, with the later attenuation rate being proportional to porosity. …”

EM wave transmission in coal-rock media. by Qingsong Zhang (3353270)

“…Initially, the decay follows a logarithmic pattern, whereas, at later stages, the attenuation exhibits a gradual and smooth decrease. As the frequency increases, the initial attenuation amplitude of electromagnetic wave intensity rises; however, subsequent attenuation is largely unaffected by frequency, with the later attenuation rate being proportional to porosity. …”

Simulation platform experimental data. by Qingsong Zhang (3353270)

“…Initially, the decay follows a logarithmic pattern, whereas, at later stages, the attenuation exhibits a gradual and smooth decrease. As the frequency increases, the initial attenuation amplitude of electromagnetic wave intensity rises; however, subsequent attenuation is largely unaffected by frequency, with the later attenuation rate being proportional to porosity. …”

Simulation platform for porous media in goaf. by Qingsong Zhang (3353270)

“…Initially, the decay follows a logarithmic pattern, whereas, at later stages, the attenuation exhibits a gradual and smooth decrease. As the frequency increases, the initial attenuation amplitude of electromagnetic wave intensity rises; however, subsequent attenuation is largely unaffected by frequency, with the later attenuation rate being proportional to porosity. …”

Processed intensity curve of 800 MHz and 900 MHz. by Qingsong Zhang (3353270)

“…Initially, the decay follows a logarithmic pattern, whereas, at later stages, the attenuation exhibits a gradual and smooth decrease. As the frequency increases, the initial attenuation amplitude of electromagnetic wave intensity rises; however, subsequent attenuation is largely unaffected by frequency, with the later attenuation rate being proportional to porosity. …”

Signal intensity curve at different porosities. by Qingsong Zhang (3353270)

“…Initially, the decay follows a logarithmic pattern, whereas, at later stages, the attenuation exhibits a gradual and smooth decrease. As the frequency increases, the initial attenuation amplitude of electromagnetic wave intensity rises; however, subsequent attenuation is largely unaffected by frequency, with the later attenuation rate being proportional to porosity. …”