1. Derive a mathematical relationship to show that the fractional loss of Kinetic energy, for the...

1) Find the uncertainty in kinetic energy. Kinetic energy depends on mass and velocity according to...

1) Find the uncertainty in kinetic energy. Kinetic energy depends on mass and velocity according to this function E(m,v) = 1/2 m v2. Your measured mass and velocity have the following uncertainties     0.01 kg and   0.37 m/s. What is is the uncertainty in energy,  , if the measured mass, m = 0.68 kg and the measured velocity, v = 1.09 m/s? Units are not needed in your answer 2) The propagation of uncertainty formula for the equation y = ax^2 is where ,and  ....

1. An object in motion is said to have kinetic energy. Kinetic energy is determined by...

1. An object in motion is said to have kinetic energy. Kinetic energy is determined by the velocity and mass of the object in motion. If m and v are the mass and velocity of the object: ??????? ?????? = (1/2 *? )∗ (v^2) Write a Python function that calculates and returns the kinetic energy given m and v. Ask the user to input the mass and velocity of a moving object. Using the python function that you wrote calculate...

Kinetic energy is the energy contained in an object because of its relative velocity to an...

Kinetic energy is the energy contained in an object because of its relative velocity to an observer. It is calculated quite easily as: E = 12 m v 2 where m is the mass (in kg); v is speed (in m/s) and E is the energy (in joules). What is the energy of impact of a comet made of ice (density is 1000 kg/m3) if it has a radius of 1 km and strikes the Earth at 30 km/s. Give...

In outer space rock 1, with mass 3 kg and velocity < 3900, -3200, 2600 >...

In outer space rock 1, with mass 3 kg and velocity < 3900, -3200, 2600 > m/s, struck rock 2, which was at rest. After the collision, rock 1's velocity is < 3400, -2400, 3000> m/s. What is the final momentum of rock 2? 2f =   kg · m/s Before the collision, what was the kinetic energy of rock 1? K1i =    Before the collision, what was the kinetic energy of rock 2? K2i =  J After the collision, what is the...

1. A mass ma=2m, with an initial velocity of 4 m/s, and a mass mb=m, initially...

1. A mass ma=2m, with an initial velocity of 4 m/s, and a mass mb=m, initially at rest, undergo an elastic collision. Calculate their final velocities after the collision. 2. A mass ma=2m, with an initial velocity of 4 m/s, and a mass mb=m, initially at rest, undergo a perfectly inelastic collision. Calculate the final velocity after the collision and the kinetic-energy loss. 3. A moving mass,m1, collides perfectly inelastically with a stationary mass,m2. Show that the total kinetic energy...

1) Free electron model: (a) Show that the mean kinetic energy of one electron in the...

1) Free electron model: (a) Show that the mean kinetic energy of one electron in the quantum mechanical free electron model is 3/5 E F at T = 0 K. (b) Calculate the Fermi energy and the mean kinetic energy for potassium in electron volts. Use that K has a relative atomic mass of M = 39.1 u and a density of 856 kg m^−3 . (c) Calculate the corresponding electron velocities. (d) Calculate the density of states at the...

If the formula for kinetic energy is KE=1/2mv^2 then why is Einstein’s equation for the total...

If the formula for kinetic energy is KE=1/2mv^2 then why is Einstein’s equation for the total energy in a given mass E=mc^2? Shouldn’t it be E=1/2mc^2? They are kind of the same equation and in my mind Einstein was basically declaring that the energy a given mass would be limited by the maximum velocity observed in the universe.

1) The kinetic energy of a .500 kg glider(glider A) moving on an air track is...

1) The kinetic energy of a .500 kg glider(glider A) moving on an air track is 1.00 J. Find the speed of glider A. 2)Two gliders are moving toward each other. Glider A has a mass of 500 g and is moving with a velocity of 40 cm/s. Glider B has a mass of 400 g and is moving with a velocity of -50 cm/s. After a head-on collision, glider A moves with a velocity of 10 cm/s and glider...

A proposed mathematical model to calculate the velocity of a parachutist after deploying the parachute given...

A proposed mathematical model to calculate the velocity of a parachutist after deploying the parachute given by the equation: v(t) = 12(1 - 2/3 e-kt) v(t) is the instantaneous velocity of the parachutist (m/s), t is the time in seconds, k = 4.5 is a constant Determine an equation x(t) for the instantaneous position of the parachutist as a function of time and find a constant of integration (C) given that the parachute was deployed when distance above the ground...

In elastic collisions,total kinetic energy and momentum are both conserved. On a frictionless track,cart 1 is...

In elastic collisions,total kinetic energy and momentum are both conserved. On a frictionless track,cart 1 is moving with a constant,rightward(+) velocity of 1.0m/s.Cart 2 is also moving rightward with constant velocity of 5.0m/s.  After a while,cart 2 collides cart 1 from behind.(It is an elactic collision.)If the final velocity of cart 2 becomes 3.0m/s, what is the final velocity of cart 1?