How, if at all, would the equations written in Parts C and E change if the projectile was thrown from the cliff at an angle above the horizontal? Explain your answer.
Answers
Answer:
x = v₀ cos θ t, y = y₀ + v₀ sin θ t - ½ g t2
Explanation:
This is a projectile launch exercise, in this case we will write the equations for the x and y axes
Let's use trigonometry to find the components of the initial velocity
sin θ = / v₀
cos θ = v₀ₓ / v₀
v_{y} = v_{oy} sin θ
v₀ₓ = vo cos θ
now let's write the equations of motion
X axis
x = v₀ₓ t
x = v₀ cos θ t
vₓ = v₀ cos θ
Y axis
y = y₀ + t - ½ g t2
y = y₀ + v₀ sin θ t - ½ g t2
v_{y} = v₀ - g t
v_{y} = v₀ sin θ - gt
= v_{oy}^2 sin² θ - 2 g y
As we can see the fundamental change is that between the horizontal launch and the inclined launch, the velocity has components
Final answer:
If a projectile is thrown at an angle above the horizontal, this introduces an additional vertical velocity component. This would affect the equations of Parts C and E by changing the values substituted into them, thereby altering the results for time of flight, highest point, and distance traveled.
Explanation:
If the projectile is thrown from a cliff at an angle above the horizontal, it would introduce a vertical component to the initial velocity in the equations. The equations of motion in Parts C and E would therefore need to incorporate this changed initial velocity.
In the equations, the initial vertical velocity is usually denoted by Vi*sin(θ), where θ is the angle at which the projectile is launched. Similarly, the horizontal velocity is expressed as Vi*cos(θ).
This additional vertical component would affect the time of flight, the height reached by the projectile, and the horizontal distance traveled before it hits the ground. Thus, while the form of the equations might not change, the values substituted into them would.
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Answers
So: 8.45x10^-11=6,673x10^-11x0,844x0,844/d^2
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b. only within the moon’s umbra.
c. only within the moon’s penumbra.
d. only the dark side of Earth.
Answers
Answer:
b. only within the moon’s umbra.
Explanation:
Solar eclipse occurs when Moon comes between the Sun and the Earth in straight line and blocks the sunlight. A shadow of moon castes on the surface of the Earth. The region passing through the moon's umbra would view a total solar eclipse. The moon completely hides the surface of the sun. It would be visible to the people residing in the bright side of the Earth within the Umbra of the moon.
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Mass of the asteroid = 1 x 10⁹ kg
Separation distance = 3 x 10⁶ m (between the Earth's center and the asteroid's center)
Gravitational force between two masses =
(6.67 x 10⁻¹¹ nt-m²/kg²) · m₁ · m₂ / (distance)²
= (6.67 x 10⁻¹¹ nt-m²/kg²) · (5.972 x 10²⁴ kg) · (1 x 10⁹ kg) / (3 x 10⁶ m)²
= (6.67 · 5.972 / 9) x 10¹⁰ · (nt · m² · kg · kg / kg² · m²)
= 13.28 x 10¹⁰ newtons
= 132.8 Giga-newtons .
(about 14,926,763 tons)
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The resultant or the net force act on the object cannot be 0. it must have a value but the direction is opposite from the object move direction.
if the object move to the left, so the net force or the resultant is doing to the right
Answers
Answer: a
Explanation: Hope it helps
Answer:
A
Explanation:
I think its a because A would be heavier making it go down faster than B. its like when you drop a father compared to a ball, the feather is lighter so it will go down slower than the ball because it has more mass