9.0
0.91
Answer:
0.91
Explanation:
as equivalence resistance can be found out using the
1/Req = 1/r1 +1/r2 +1/r3......
now, 1/req= 1/2+1/3+1/4
=6/12+4/12+3/12
=13/12
i.e, req =12/13 =0.91
✌️:)
Answer:5.5
i dont remember the unit of measurement tho
Explanation:
Answer:
Electromagnetic waves are transverse waves that consist of a combined magnetic and electric effect.
Explanation:
wth :^)
Answer:
32.5 m/s
Explanation:
Given:
Δy = 50 m
a = -10 m/s²
t = 2.5 s
Find: v₀
Δy = v₀ t + ½ at²
(50 m) = v₀ (2.5 s) + ½ (-10 m/s²) (2.5 s)²
v₀ = 32.5 m/s
b. the object slows down
c. the object changes direction
d. all of the above
Gravity is what causes the ball to accelerate. The acceleration of the ball during the entire time it is in the air, assuming it is on the Earth's surface, is 9.8 m/s2.
In a simple scenario, the ball falls in accordance with the direction of gravity, which is always downward. Gravitational acceleration on Earth is 9.8 m/s2 (g=9.8 m/s2). In essence, this indicates that the ball's velocity will increase by 9.8 m/s for every second while it is falling.
The bowling ball accelerates at 1.875 m/s2.
The ball revolves around its center of gravity while in flight. The center of gravity's motion is described by Newton's laws of motion. Drag is the term for the force that the air exerts on the motion of the ball as it travels through it.
force
According to Newton's second law, a large body will accelerate, or change its velocity, at a constant rate, when a constant force is applied to it. In the most basic scenario, when a force is applied to an object at rest, it accelerates in the force's direction.
Distance, time, acceleration, and velocity relationships. Unfortunately, the golf ball would stop accelerating unless we had a rocket-powered golf ball. It would merely move roughly in the horizontal direction at a constant speed.
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