What trend in the knock-back distance of catcher 1 can be observed as the distance relative to the ramp is made to be constant but the mass of the spherical object is increased? Why do you think this is the case? Explain in detail. SPEHRICAL OBECT 1 MASS (kg)0.0022SPEHRICAL OBECT 2 MASS (kg)0.0031SPEHRICAL OBECT 3 MASS (kg)0.0053SET-UP 1 AND 2 (LIGHTEST MASS AT DIFFERENT LENGTHS WITH CATCHERS 1 AND 2)Time from top to end of ramp andcorresponding accelerationsTrials for 10 cm Catcher 1 Knock-Trials for 20 cmCatcher 1 Knock-Trials for 30 cmCatcher 1 Knock-ConfigurationsTime 1Time 2Time 3Ave.ramp distanceback Distanceramp distanceback Distanceramp distanceback Distance10 cm ramp distance0.350.480.560.46122Calculated Acceleration1.630.870.641.051222320 cm ramp distanceCalculated Acceleration30 cm ramp distanceCalculated Acceleration0.730.560.640.643131330.751.280.981Ave.1Ave.1.67Ave.2.670.810.560.680.680.911.911.31.4Catcher 2 Knock-Catcher 2 Knock-Catcher 2 Knock-Trials for 10 cm back DistanceTrials for 20 cmback DistanceTrials for 30 cmback Distanceramp distance(cm)ramp distance(cm)ramp distance(cm)rce calculation 10 cm ramp distar 0.00231rce calculation 20 cm ramp distar 0.0031rce calculation 30 cm ramp distar 0.00742110.713.120.623.3330.432Ave.Ave.0.57Ave.2.8SET-UP 3 & 4 (2 OTHER SPHERICAL OBJECTS WITH CATCHER 1 AT 10 CM)SHPERICALlOBJECT NO.SHPERICAL2ОBJЕCT NO.3Catcher 1 Knock-Catcher 1 Knock-Trials for 10 cm back DistanceTrials for 10 cmback Distanceramp distance(cm)ramp distance(cm)121.32.0.621.53231Ave.1.53Ave.1.27

As seen in the data, the knockback distance of a catcher is directly proportional to the distance…

Answered: What trend in the knock-back distance…

Similar questions

The rate at which a nebular cloud rotates increases as the cloud collapses to form systems of stars and planets. Consider a small segment of a nebular cloud with a mass m of 1.9 x 102' kg, tangential velocity vinitial equal to 6.8 km s located at an orbital distance rinitial = 2.5 x 104 km. After the cloud collapses, the same small segment is located at an orbital distance rfinal = 3.2 x 10³ km. Calculate the change of the rotational velocity, Aw, for the cloud segment, assuming perfectly circular orbits. Perform your work and report your solution using two significant figures. Δω rad s-1
The rate at which a nebular cloud rotates increases as the cloud collapses to form systems of stars and planets. Consider a small segment of a nebular cloud with a mass m of 1.9 x 1027 kg, tangential velocity vinitial equal to 6.8 km s¯1 located at an orbital distance rinitial = 2.5 x 104 km. After the cloud collapses, the same small segment is located at an orbital distance rinal = 3.2 x 10° km. Calculate the change of the rotational velocity, Ao, for the cloud segment, assuming perfectly circular orbits. Perform your work and report your solution using two significant figures. Δω- rad s-
Can I please get some help with the key concepts and principles, please and thank you!
If you took the Earth and reduced its radius to one fourth its current size, what would the escape velocity from the Earth be?
Please asap for like Please asap
In 2000, NASA placed a satellite in orbit around an asteroid. Consider a spherical asteroid with a mass of 1.40×1016 kg and a radius of 8.20 km What is the speed of a satellite orbiting 4.90 km above the surface? What is the escape speed from the asteroid?
A satellite of mass 200 kg is launched from a site on Earth’s equator into an orbit 200 km above the surface of Earth. a. What is the satellite’s speed before it’s launched (in m/s)? (Hopefully, it’s moving along with the surface of the Earth as the Earth rotates.) b. What is the satellite’s speed in its orbit (in m/s)? (Remember there is only onespeed a satellite can have in order to maintain a stable circular orbit with agiven radius.) c. Assuming a circular orbit, what is the orbital period of this satellite? (In other words, how long (in hours) does it take for the satellite to complete one orbit?) d. What is the minimum energy (work) necessary to place the satellite in orbit,assuming no air friction? (Remember, work is the amount of energy added tothe system, and the total energy of the system is a combination of kinetic andgravitational potential energies.)
Planet X is a sphere where a 0.5 kg block weighs 36 N when sitting on the surface. If an object is dropped from rest at a distance 9R from X's center it is observed to impact the surface at a speed of 16,000 m/s. Find a value for the radius of planet X.
An exotic planet Vogsphere is known to have a mass that is 1/81 that of the Earth and a radius 0.25 that of the Earth. Astrophysicist Trillian built a rocket and decided to leave the planet and never to return. Given that the escape speed from the Earth is 11.2 km/s, with what speed must Trillian achieve his goal?
The evolution of a star depends on its size. If a star is sufficiently large, the gravity forces holding it together may be large enough to collapse it into a very dense object composed mostly of neutrons. The density of such a neutron star is about 1014 times that of the Earth. Suppose that a star initially had a radius of 7 x 108 km, and it rotated once every 26 days. What would be the period of rotation if the star collapsed to a radius of 15 km? (1.19 x 10-14 days)
I don't understand why B would be the correct answer? Shouldn't the potential energy be decreasing as Mars gets farther, since the gravitational force decreases? And why is angular momentum the same?
A flat surface is covered with non-overlapping disks of same size. What is the largest fraction of the area that can be covered? 3 (a) 5л (b) 6. (d) 2/3

SEE MORE QUESTIONS