A fictional spaceship accelerates at a constant rate of 0.107 m/s^2.
A) How long would it take to reach the moon, 4.14*10^8 m away?
B) What would be its final velocity?
A fictional spaceship accelerates at a constant rate of 0.107 m/s^2. A) How long would it...
A fictional spaceship accelerates at a constant rate of 0.091 m/s*. (a) How long would it take to reach the moon, 3.87 x 108 m away? (b) What would be its final velocity?
A fictional spaceship accelerates at a constant rate of 0.106 m/s2 (a) How long would it take to reach the moon, 3.69 x 108 m away? (b) What would be its final velocity?
7. The nearest star is 4.1 x 1016 m away. Suppose you had a spaceship that could accelerate from rest at 10 m/s? for half a year, then continues at constant speed. How long would it take to reach the nearest star? Use 1 year 365 days, 24 hours -1 day, 60 minutes 1 hour, 60 seconds 1 minute. も. 15768111 vA: at 2 1.24 16 15 구 68 oooo 8. A roofer on the ground throws a hammer to...
A sprinter is running at a speed of 8.70 m/s, then accelerates at a constant rate of 2.65 m/s2 for the last 9.80 m of the race. What is his final speed as he crosses the finish line? NumberUnits How long did it take him to run the last 9.80 m of the race? NumberUnits
please help with immediacy.
please
An asteroid is traveling through space at a constant speed of 250 m's relative to a spaceship trailing behind. At the moment the spaceship is 630 m behind, it fires a probe (initially at rest on the spaceship) that accelerates at constant 36 m/s. Treat the spaceship as stationary for this problem. How long will it take for the probe to reach the asteroid? a. b. How far away from the spaceship does the collision...
A car accelerates at 5 m/s^2 for 8 seconds. The direction of its acceleration is due east. If its initial velocity was 7 m/s, also due east, what is its speed during this time interval? Round your answer to the two decimals. ________ A car accelerates at 7 m/s^2 for 2 seconds. The direction of its acceleration is due east (east = positive direction). If its initial velocity was 47 m/s, due west, what is its final velocity? Round your...
Molecules with a diffusion constant D = 1.0 x 10-10 m?s-1 are released at a constant rate of 1010 molecules/s in the middle of a large pool and diffuse away. (a) What is the steady-state concentration 1 cm away from the source? (b) How long after the release has started will it take for the concentration to reach / of its steady state value 1 cm away from the source?
1. Constant Acceleration –
1. Constant Acceleration - 1 g Spaceship. Imagine that a spaceship can accelerate (starting from rest) at a sustained 1 g (9.8 m/sec2) for any desired length of time. Make a table as follows Veloci m/sec km/sec Distance Traveled meters kilometers millions of kilometer billions of kilometers billions of kilometers Elapsed time 1 minute our 1 day 1 week(7 days) 1 month (30 days) km/sec km/sec For each listed time, calculate both the attained velocity and...
PLEASE SHOW WORK
If we assume that a spaceship could accelerate from rest at a constant rate of 9.81 m/s2, then how long would it take to reach 2% of the speed of light? (Assume the speed of light = 3.0 x 108 m/s) O 1.8 days O 3.5 days O 3.1 105 s O 6.1* 105 s O 7.1 days
A car having an initial velocity of 15 m/s accelerates with an acceleration of 1.50 m/s? until it reaches a final velocity of 30 m/s. How far must the car travel to reach its final velocity? O2. 250 m 6.275 m O4 225 m d. 300 m