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.
ρ=mvρ= 0.130 x 30ρ= 3.9 Kgms-1
Yes, the word 'approach' is both a noun and a verb.The noun 'approach' is a word for a way or means of reaching something; a way of dealing with a situation or problem; a beginning step toward an end.noun: The approach to the house is through the garden.verb: You need to approach the problem from a different perspective.
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
Ans;- 4.6 meters per second. This assumes they are heading 'Directly' towards each other, and the 'Impact speed' will be the sum of their individual speeds !. But If they are approaching each other on a collision path, but at an angle, then one of the speeds will be vectored, by trigonometry to reduce its approach speed, according to the angle.
9.8 meters per second squared.
Momentum = (mass) x (speed) = (0.148) x (35) = 5.18 kilogram meters per second
"The laser beam is initiated and directed toward the octagonal mirror called the scanning mirror." (pg. 1134, Chapter 21, A+ Guide to Managing and Maintaining Your PC)
rotational mirror
A concave mirror, or converging mirror, has a reflecting surface that bulges inward (away from the incident light). A convex mirror, fish eye mirror or diverging mirror, is a curved mirror in which the reflective surface bulges toward the light source.
1.53 m/s towards the beach
1.53 m/s towards the beach
Your image will also move at 3.9 ms
The direction of the velocity is always downward, but its magnitude keeps growing. It's always 9.8 meters per second faster than it was one second earlier.
Look at the mirror, and find the retainer screw. Loosen the screw and slide the mirror up, toward the roof of the car.