hi here is your answer hope it helps or then sry
Explanation:
A brass lid on a glass canning jar will loosen when heated because brasshas the greater coefficient of thermal expansion
Answer:
Explanation:
1. Inside tss_coach.html <head> section, include these two lines of code:
<link rel="stylesheet" href="coach_layout.css">
<link rel="stylesheet" href="coach_styles.css">
These two lines links the CSS files with the HTML code.
2. Include the below two lines at the top of the file coach_styles.css and before the comment section
@charset "UTF-8"
@font-face { font-family: Nobile;
src: url (nobile-webfont.woff); }
Answer:
Civil Engineering.
Explanation:
Civil Engineering is a field of engineering study that deals with professional practising in designing and developing infrastructures such as transport system and networks, buildings, etc.
<u>Civil engineering is regarded as the second--oldest form of engineering studies in the field of engineering.</u>
<u>A person who studies civil engineering is able to design and develop major projects in transportations system such as road construction, bridges, airports, tunnels, etc.</u>
So, Danny, who is interested in studying transporation networks and system should opt for studying civil engineering.
Answer:
a. The very first liquid process, when heated from 1250 degree Celsius, is expected to form at the temperature by which the vertical line crosses the phase boundary (a -(a + L)) which is about <em>1310 degree Celsius. </em>
b. The structure of that first liquid is identified by the intersection with ((a+ L)-L) phase boundary; <em>47wt %of Ni</em> is of a tie line formed across the (a+ L) phase area <em>at 1310 degrees.</em>
c. To find the alloy's full melting, it is determined that the intersection of the same vertical line at 60 wt percent Ni with (a -(a+L)) phase boundary is around <em>1350 degrees.</em>
c. The structure of the last remaining solid before full melting correlates to the intersection with the phase boundary (a -(a + L), of the tie line built at 1350 degrees across the (a + L) phase area, <em>being 72wt % of Ni.</em>
