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Yes, assuming the ball has elasticity and you haven't exceeded the height where the ball, when dropped, reaches terminal velocity.
The soccer ball reaches its top speed of about 75 mph 1 second after being hit.
acceleration due to gravity acting on it, which causes it to increase in speed as it falls. The force of air resistance also acts on the ball, gradually slowing it down. Eventually, the ball reaches terminal velocity, where the force of gravity is equal to the force of air resistance and the ball falls at a constant speed.
all objects accelerate to earth at 9.8 m/s/s until it reaches its terminal velocity.
The ball loses 50% of its speed by the time it reaches the net.
The speed is 44.4... repeating metres per second.
because the after they throw the ball, the ball drops 2 feet till it reaches the plate so this because the after they throw the ball, the ball drops 2 feet till it reaches the plate so this
a golf ball of with a mass of 45g and diamter 4.3cm reach terminal speed when dropped from a height of 25m, the drag coefficient is 0.35 and the density of air is 1.2kg/m^3.using the formulavt=sqrt(2∗mgCpA)vt=sqrt(2∗(45g)(9.8m/s2)(.35)(1.2kg/m3)(0.043m))so pluggeed that into my calculator, and found the terminal speed of 220.99m/s.
... What is the speed of the ball? Distance = 17.5 m Time = 2.6 sec Speed (of sound) = 340 m/sec Speed (of ball) = ? Typically Speed = Distance/time (which means 17.5/2.6. But here we also have to calculate the speed of the sound of the ball traveling when the ball hits the pins till it reaches the ears of the bowler) Time (of sound) = Distance/Speed (of sound) = 17.5/340 = 0.0515 sec Time (of ball) = 2.6 - 0.0515 =2.5485 sec Speed (of ball) = Distance/Time (of ball) = 17.5/2.5484 = 6.87 m/sec
If it's a ball like a tennis ball, an old ball would be smoother and would have less drag.
A ball at rest contains only potential energy. A ball in motion contains almost all kinetic energy. But it gets tricky here. A free falling ball that has not yet reached terminal velocity has no potential energy. That energy is being given up to kinetic energy. Once the ball reaches terminal velocity in Earth's atmosphere, air resistance holds back further conversion of potential energy to kinetic.
Zero.