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These happen because the axis of Earths spin in inclined at an angle from the normal of to the plane in which it orbits the Sun.
These happen because the axis of Earths spin in inclined at an angle from the normal of to the plane in which it orbits the Sun.
No but a right angle is a perpendicular
You need to multiply the base by the PERPENDICULAR height. If you know only the INCLINED height, you simply don't have enough information. If you also know the angle, you can calculate the perpendicular height with some simple trigonometry.
a direct ray is where the sun light hits the earth at a 90 degree angle so the angle of sunlight is perpendicular to the earths surface
This titled position of the earths axis is known as inclination of the earths axis. The earth's rotation axis makes an angle of about 66.5 degrees with the plane of its orbit around the sun, or about 23.5 degrees from the perpendicular to the ecliptic plane.
what is inclined at an angle of11.5 to earth's rotational axis?
An angle bisector bisects an angle. A perpendicular bisector bisects a side.
Draw a perpendicular from the point where the incident ray is reflected and the angle between the perpendicular and reflected ray is the angle of reflection.
A ramp is an inclined plane because an inclined plane is a set of a surface set at an angle that is not a right angle. In which a ramp is an inclined plane!
I can be. Perpendicular is a "T", with the stem SOMETIMES moved to the left or right. So, yes, a right angle CAN be perpendicular.
The Northern Hemisphere is inclined towards the Sun (so the rays are more nearly perpendicular to the ground). It was most inclined around June 20th and will be least inclined, without leaning away, on September 22nd. On December 21st, it will be tilted at its maximum angle away from the Sun.