A space probe has two engines. Each generates the same amount of force when fired, and the directions of these forces can be in- dependently adjusted. When the engines are fired simultaneously and each applies its force in the same direction, the probe, starting from rest, takes 28 s to travel a certain distance. How long does it take to travel the same distance, again starting from rest, if the engines are fired simultaneously and the forces that they apply to the probe are perpendicular
Answers
Answer:
t = 39.60 s
Explanation:
Let's take a careful look at this interesting exercise.
In the first case the two motors apply the force in the same direction
F = m a₀
a₀ = F / m
with this acceleration it takes t = 28s to travel a distance, starting from rest
x = v₀ t + ½ a t²
x = ½ a₀ t²
t² = 2x / a₀
28² = 2x /a₀ (1)
in a second case the two motors apply perpendicular forces
we can analyze this situation as two independent movements, one in each direction
in the direction of axis a, there is a motor so its force is F/2
the acceleration on this axis is
a = F/2m
a = a₀ / 2
so if we use the distance equation
x = v₀ t + ½ a t²
as part of rest v₀ = 0
x = ½ (a₀ / 2) t²
let's clear the time
t² = (2x / a₀) 2
we substitute the let of equation 1
t² = 28² 2
t = 28 √2
t = 39.60 s
Related Questions
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A swimmer heads directly across a river, swimming at 1.00 m/s relative to still water. He arrives at a point 41.0 m downstream from the point directly across the river, which is 73.0 m wide. What is the speed of the river current?
Answers
Answer:
His trip took 5.78 seconds
Explanation:
23.7m divided by 4.1m/s = 5.78048780488
Answers
How I got this: first you add 64 and 93, then 5 and 2. That would leave you with the kilometers traveled (157) over the number of hours (7). You’d have to divide, which would leave you with an estimated 22.4285. Round to the nearest hundredth and you get 22.43 . Please correct me if I’m wrong!
Answers
Answer:
Explanation:
given,
time taken to complete the each orbit = 144 minutes
t = 144 x 60 = 8640 s
mass of the earth = 5.98 x 10²⁴ Kg
radius of earth,R = 6.38 x 10⁶ m
Using Kepler's 3rd law
r = 9.1 x 10⁶ m
the altitude of the satellite
H = r - R
H = 9.1 x 10⁶ - 6.38 x 10⁶
H = 2.72 x 10⁶ m
track with a radius of 30 meters. What
is the car's rate of centripetal
acceleration?
Answers
The car's rate of centripetal acceleration in the circular path is 4.8 m/s².
The given parameters;
- mass of the car, m = 2,000 kg
- velocity of the car, v = 12 m/s
- radius of the circular path, r = 30 m
The centripetal acceleration of the car is calculated as follows;
where;
- v is the tangential speed of the car
- r is the radius of the circular path
Substitute the given parameters and solve for the centripetal acceleration;
Thus, the car's rate of centripetal acceleration is 4.8 m/s².
Learn more here:brainly.com/question/11700262
a = 12²/30 =4.8 m/s²
5.0 kg
B
25 N
C
49 kg
D
49 N
Answers
The weight of a 5.0-kilogram object at the surface of Earth is 49 N. Hence, option (C) is correct.
What are mass and weight?
Mass is a fundamental quantity in physics and the most fundamental attribute of matter. Mass can be defined as the amount of matter contained in a body. Kilogram is the SI unit of mass (kg).
A body's mass does not alter at any time. Only in severe instances where a massive amount of energy is provided or removed from the body.
The force of gravity acting on a body is measured by weight. The weight formula is as follows: w = mg. Because weight is a force, it has the same SI unit as force; the SI unit of weight is Newton (N).
The weight of the object is = 5.0 × 9.8 N
= 49.0 N.
Hence, option (B) is correct.
Learn more about weight here:
#SPJ2
Answer:
49 N (d)
Explanation:
w= mg = 5 kg * 9.8 m/s^2 = 49 N
How far does the car move during the 2.52 s?
How long does it take the car to come to a complete stop?
Answers
Answer:
19.1 m/s
58.1 m
8.60 s
Explanation:
Take north to be positive and south to be negative.
Use Newton's second law to find the acceleration.
∑F = ma
-7850 N = (2500 kg) a
a = -3.14 m/s²
Given:
v₀ = 27.0 m/s
a = -3.14 m/s²
Find: v given t = 2.52 s
v = at + v₀
v = (-3.14 m/s²) (2.52 s) + 27.0 m/s
v = 19.1 m/s
Find: Δx given t = 2.52 s
Δx = v₀ t + ½ at²
Δx = (27.0 m/s) (2.52 s) + ½ (-3.14 m/s²) (2.52 s)²
Δx = 58.1 m
Find: t given v = 0 m/s
v = at + v₀
0 m/s = (-3.14 m/s²) t + 27.0 m/s
t = 8.60 s