Answer:
0.799 m/s if air resistance is negligible.
Explanation:
For how long is the ball in the air?
Acceleration is constant. The change in the ball's height depends on the square of the time:
,
where
- is the change in the ball's height.
- is the acceleration due to gravity.
- is the time for which the ball is in the air.
- is the initial vertical velocity of the ball.
- The height of the ball decreases, so this value should be the opposite of the height of the table relative to the ground. .
- Gravity pulls objects toward the earth, so is also negative. near the surface of the earth.
- Assume that the table is flat. The vertical velocity of the ball will be zero until it falls off the edge. As a result, .
Solve for .
;
;
;
.
What's the initial horizontal velocity of the ball?
- Horizontal displacement of the ball: ;
- Time taken:
Assume that air resistance is negligible. Only gravity is acting on the ball when it falls from the tabletop. The horizontal velocity of the ball will not change while the ball is in the air. In other words, the ball will move away from the table at the same speed at which it rolls towards the edge.
.
Both values from the question come with 3 significant figures. Keep more significant figures than that during the calculation and round the final result to the same number of significant figures.
Sound waves.
Sound waves are not electromagnetic radiation. Every other option is an electromagnetic radiation.
Answer:
distance is how much space is between, speed is how fast they are going, velocity is money and acceleration is going
Explanation:
Security of surgery, a good experience of dentist, provide information of the process, explain the process, explain that the process will make the patient feel better and explain the importance of having health.
Answer:
magnitude of force is 1725 N
direction is opposite to the direction of car moving i.e west
Explanation:
Given data
car mass = 1380 kg
speed = 27.0 m/s
time = 8 s
speed = 17 m/s
to find out
magnitude and direction of the net force
solution
we find here first acceleration thats formula is
a = v(initial) - v(final) / time
a =27 - 17 / 8
acceleration = 1.25 m/s
so force is = ma
force is = 1380 ( 1.25)
force = 1725 N
so magnitude of force is 1725 N
and this is here direction is opposite to the direction of car moving i.e west