First is B, since 1 and 3 are corresponding angles, they must be equal
Next is I, 3 and 5 must be equal since they are vertically opposite
Last is transitive property
Since 1 = 3 and 3 = 5, then 1 must equal 5
m₁ = mass hanged initially = 0.2 kg
x₁ = initial stretch in the spring = 8 cm = 0.08 m
k = spring constant of the spring
the weight of the mass hanged is balanced by the spring force by the spring hence
Spring force = weight of mass hanged
k x₁ = m₁ g
k (0.08) = (0.2) (9.8)
k = 24.5 N/m
m₂ = mass hanged later = 0.5 kg
x₂ = final stretch in the spring = ?
k = spring constant of the spring = 24.5 N/m
the weight of the mass hanged is balanced by the spring force by the spring hence
Spring force = weight of mass hanged
k x₂ = m₂ g
(24.5) x₂ = (0.5) (9.8)
x₂ = 0.2 m = 20 cm
Adjust the compass to width AC/AB and with the compass at B/C, mark an arc across the circle to be the next vertex of the hexagon.
Step-by-step explanation:
The steps in constructing a regular hexagon inscribed in a circle are:
- Marking a point on the circle to be the first vertex of the hexagon
- Place compass on the point and adjust it to the center of the circle
- Mark an arc across the circle to be the next vertex of the hexagon
- Move the compass to this new vertex and mark another arc for the next vertex of the hexagon
- Repeat this step to achieve all 6 vertices
- Using a straight edge draw a line between each point and the next one on the circle
- The result is an inscribed hexagon in a circle
Learn More
Constructing a hexagon inscribed in a circle: brainly.com/question/11833289
Keywords ; regular, hexagon, construct,
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Try to count your square and use the formula lxwxh
