An object moving with constant acceleration near the surface of the earth is influenced by the gravity. <span>In physics, </span>gravitational acceleration<span> is the </span>acceleration<span> on an object caused by the force of </span>gravitation<span>. Neglecting friction such as air resistance, all small bodies accelerate in a </span>gravitational <span>field at the same rate relative to the center of mass.</span>
Was related to my mother.
The distress call had given the ship's position.
It isn't the first time I have cooked.
The head of our commission made a motion<span> that we rewrite the constitution.</span>
The speed of the large fish after eating the small fish is 4.76 m/s.
We can apply the law of momentum conservation to calculate the speed of the large fish.
Let the velocity of the large fish after eating small fish is v.
According to law of momentum conservation
m1u1+m2u2=(m1+m2)v
here, m1 is the mass of the large fish, u1 is the initial speed of larger fish, ml is the mass of the small fish, u2 is the initial speed of small fish
10*5+0.5*0=(10+0.5)v
v=4.76 m/s
Z that is where both of the light rays intersect
Answer:
<h2>
137.69°</h2>
Explanation:
The phase angle of an RLC circuit ϕ is expressed as shoen below;
ϕ =
Xc is the capacitive reactance = 1/2πfC
Xl is the inductive reactance = 2πfL
R is the resistance = 25.0Ω
Given C = 35.5 μF, L = 0.0940 H, and frequency f = 70.0Hz
Xl = 2π * 70*0.0940
Xl = 41.32Ω
For the capacitive reactance;
Xc = 1/2π * 70*35.5*10⁻⁶
Xc = 1/0.0156058
Xc = 64.08Ω
Phase angle ϕ =
ϕ =
Since tan is negative in the 2nd quadrant;
Hence the phase angle ϕ of the circuit in degrees is 137.69°