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∙ 9y ago12 x sin 60 = 11.08 pounds
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∙ 9y agoA graph which consists of short straight lines which keep changing direction. Example : a graph line which is inclined at say, 30 degrees to a horizontal, then changes direction instantly to a line which is say, inclined at 60 degrees to the horizontal , etc. If the shape of a graph is not a series of straight lines joined to each other, then it is not a step graph.
20 degrees is a measure of angular displacement. This cannot be converted to lateral (horizontal) displacement.
other horizontal lines? which would be 180 degrees i guess.
Construct a perpendicular line that intersects a horizontal line at 90 degrees and then bisect the vertical line with the horizontal line will give an obtuse angle of 135 degrees because 90 degrees+45 degrees = 135 degrees
A wall is an example of a surface standing at 90 degrees from the horizontal.
.50g
-- The component that's inclined 30 degrees above the horizontal is[ 20 sqrt(3) ] = about 34.641 newtons. (rounded)-- The other component is inclined 60 degrees below the horizontal,and its magnitude is 20 newtons.
A graph which consists of short straight lines which keep changing direction. Example : a graph line which is inclined at say, 30 degrees to a horizontal, then changes direction instantly to a line which is say, inclined at 60 degrees to the horizontal , etc. If the shape of a graph is not a series of straight lines joined to each other, then it is not a step graph.
The horizontal force can be calculated using the formula Fhorizontal = Fcos(θ), where F is the given force (20N) and θ is the angle of inclination (30 degrees). Plugging in the values, we get Fhorizontal = 20N x cos(30) ≈ 17.3N.
The initial magnitude of the velocity is sqrt(5) times the horizontal component. This results in a velocity vector that is inclined at an angle of arctan(2) ≈ 63.43 degrees with respect to the horizontal.
The applied force will depend on the required force, and the angle to the ramp (or the horizontal) at which the force is applied.
23.5 degrees.
it is about 23 degrees
27 degrees high likely refers to the angle of elevation or inclination from the horizontal plane. It signifies the measurement of how steep or inclined an object or structure is rising in relation to the ground.
Axes aren't inclined, they are tilted. Orbital planes are inclined, and Jupiter's is inclined about 6 degrees from the Solar equator. Planes can also be inclined relative to the ecliptic or the invariable plane. Jupiter's axis is tilted about 3 degrees from the ecliptic.
1.)Oblique sketch has a more focus on the front side of an object or the face while isometric sketch focuses on the edge of an object. 2.)Oblique sketch drawn usually using the 45-degrees angle to render the third dimensions while isometric sketch drawn using 30 degrees angles.
20 degrees is a measure of angular displacement. This cannot be converted to lateral (horizontal) displacement.