2 mps
The previous answer is incorrect. The image in the mirror will be coming toward you, the object, at the same speed that you are going. This means that you simply multiply your speed by two (ie you are adding the two equal velocities together). 2 m/s + 2 m/s = 4 m/s
1.53 m/s towards the beach
90 degrees is the largest possible angle of incidence because it is then parallel to the face of the mirror and is grazing the mirror.
The distance of one second of longitude varies depending on the latitude due to the curvature of the Earth. At the equator, one second of longitude is approximately 30.87 meters, but this distance decreases as you move toward the poles. At higher latitudes, the distance can be significantly less, approaching zero at the poles where all lines of longitude converge.
ρ=mvρ= 0.130 x 30ρ= 3.9 Kgms-1
The previous answer is incorrect. The image in the mirror will be coming toward you, the object, at the same speed that you are going. This means that you simply multiply your speed by two (ie you are adding the two equal velocities together). 2 m/s + 2 m/s = 4 m/s
9.8 meters per second squared.
rotational mirror
If parallel rays of light are directed toward a mirror, they will reflect off the mirror at the same angle that they hit it. This is based on the law of reflection, which states that the angle of incidence is equal to the angle of reflection.
1.53 m/s towards the beach
Your image will also move at 3.9 ms
Look at the mirror, and find the retainer screw. Loosen the screw and slide the mirror up, toward the roof of the car.
Acceleration due to gravity on Earth is 9.8 m/s2 (9.8 meters per second per second); that is, if you are not standing on something, neglecting air resistance (which creates a 'terminal velocity' and prevents you from falling too fast), your speed falling toward the earth would increase by 9.8 meters per second.
90 degrees is the largest possible angle of incidence because it is then parallel to the face of the mirror and is grazing the mirror.
The clips at the top of the mirror should just slide up, allowing you to tilt the mirror toward you and lift it from the bottom clips.
The distance of one second of longitude varies depending on the latitude due to the curvature of the Earth. At the equator, one second of longitude is approximately 30.87 meters, but this distance decreases as you move toward the poles. At higher latitudes, the distance can be significantly less, approaching zero at the poles where all lines of longitude converge.
The word approach means when you come toward someone.