Wiki User
∙ 12y ago45.9g convert to kg=45.9/1000=0.0459kg
then apply planck's constant=6.63*10^-34
0.0459*60.0=2.754
6.63*106-34/2.754=2.41*10^-34 m
Wiki User
∙ 12y agoTo calculate the wavelength, we need to use the de Broglie wavelength formula: λ = h / (mv), where h is the Planck constant (6.626 x 10^-34 m^2 kg / s), m is the mass of the Golf ball in kg (0.0459 kg), v is the velocity of the golf ball in m/s (60 m/s). Plugging in the values, we find that the wavelength of the golf ball is approximately 0.36 x 10^-34 m.
A slow moving photon has a longer wavelength compared to a fast moving golf ball. Wavelength is inversely proportional to speed, so the slower the object, the longer the wavelength.
The fastest recorded speed for a ball in competition is 131 mph (211 km/h) from a tennis serve hit by Samuel Groth in 2012.
-- When you catch a ball, you have to change its speed from something to nothing. -- That requires acceleration, and acceleration requires force. -- The force that changes the speed of the ball from something to nothing comes from the muscles in your catching arm.
Speed and Velocity are the same thing, it is a measure of rate of change of position of an object.
Yes, there is a relationship between the mass of a moving ball and its speed while rolling down an inclined plane. The speed of the ball will depend on its mass as well as the angle of the incline, gravitational force, and any external forces acting on the ball. Heavier balls will generally accelerate more slowly but might reach higher speeds due to their momentum.
Lamda = 1.90*10^-34
To find the wavelength of the golf ball, we need to use the de Broglie wavelength formula: λ = h / mv, where h is Planck's constant (6.626 x 10^-34 J s), m is the mass of the golf ball (convert to kg), v is the velocity of the golf ball. Plugging in the values, we get the wavelength of the golf ball.
A slow moving photon has a longer wavelength compared to a fast moving golf ball. Wavelength is inversely proportional to speed, so the slower the object, the longer the wavelength.
The speed is measured by radar from the batsman's end as the ball leaves the bowlers hand.
The speed of ball is usually measured when it leaves the bowler's hand. The ball rapidly decelerates as it approaches the batsman, further decelerating after it pitches.
most radar guns record the speed of the ball as it leaves the pitcher's hand. However, on some guns, you can program it to record the speed as it crossed the plate as well.
The ball will be traveling at the same speed when it returns to Earth.
No. The highest ball speed you can register is the moment it leaves your hand. After that moment friction slows the ball down. Generally if a bowling alley has speed sensors at the pin deck the register speed is about 1.5mph slower than when the ball left your hand. Being that reactive resin has a higher coefficient of drag against the lane it will slow your ball down more than if our threw a plastic house ball in similar shape.
The wavelength of a moving soccer ball is not detectable to the naked eye because it is much smaller than the resolution capability of the human eye. The speed of the ball is also not fast enough for its wavelength to be compressed into the visible spectrum. Therefore, the motion of the ball appears continuous rather than showing individual waves.
To calculate the kinetic energy of a ball leaving a gun, you can use the formula KE = 0.5 * m * v^2, where m is the mass of the ball and v is its velocity. By measuring or determining the mass of the ball and the velocity at which it leaves the gun, you can calculate its kinetic energy.
speed ball is not avalible in emerald
fast moving Golf ball.