At what speed (in m/s) is the magnitude of a particle's relativistic momentum 10.3% larger than...

A. At what speed does the classical momentum, p=mv, give an error, when compared with the...

A. At what speed does the classical momentum, p=mv, give an error, when compared with the relativistic momentum, of 1.28 % B. At what speed does the classical momentum, p=mv, give an error, when compared with the relativistic momentum, of 4.76 % ?

Suppose a large ship has a momentum of 1.55 × 109 kg⋅m/s. (A) What is the...

Suppose a large ship has a momentum of 1.55 × 109 kg⋅m/s. (A) What is the mass of the large ship, in kilograms, if the ship is moving at a speed of 45 km/h? (B) How much larger is the ship’s momentum than the momentum of a 1025-kg artillery shell fired at a speed of 290 m/s? A person slaps her leg with her hand, bringing her hand to rest in 250 ms from an initial speed of 3.95 m/s...

1. Suppose a 1900 kg rhino is charging a man at a speed of 6.5 m/s. a. Calculate the momentum...

1. Suppose a 1900 kg rhino is charging a man at a speed of 6.5 m/s. a. Calculate the momentum of the rhino, in kilogram meters per second.  b. How many times larger is the rhino's momentum than the momentum of a 0.042-kg tranquilizer dart fired at a speed of 390 m/s? c. What is the momentum, in kilogram meters per second, of the 87.5-kg man running at 4.1 m/s after missing the elephant?

Two balls moving with the same speed of v = 0.48 m/s but in opposite directions...

Two balls moving with the same speed of v = 0.48 m/s but in opposite directions undergo a head-on collision. Ball A has mass mA = 2.6 kg and is traveling to the left, while ball B has mass mB = 1.3 kg and is traveling to the right. The balls are shown just before the collision in the figure below. (a) Which ball has the larger momentum (in magnitude) before the collision? Ball A Ball B Both balls have...

A particle has a rest mass of 6.35 × 10 − 27 kg and a momentum...

A particle has a rest mass of 6.35 × 10 − 27 kg and a momentum of 5.73 × 10 − 18 kg ⋅ m/s . Determine the total relativistic energy of the particle. E = J Find the ratio of the particle's relativistic kinetic energy to its rest energy. K E rest =

A particle's trajectory is described by x =(12t3−2t2)m and y =(12t2−2t)m, where t is in s....

A particle's trajectory is described by x =(12t3−2t2)m and y =(12t2−2t)m, where t is in s. What is the particle's speed at t=0s ? What is the particle's speed at t=5.0s ? Express your answer using two significant figures. What is the particle's direction of motion, measured as an angle from the x-axis, at t=0 s ? Express your answer using two significant figures. What is the particle's direction of motion, measured as an angle from the x-axis, at t=5.0s...

A relativistic particle is moving with a velocity of (3.0x105 m/s) i + (4.0x106 m/s) j....

A relativistic particle is moving with a velocity of (3.0x105 m/s) i + (4.0x106 m/s) j. Another relativistic particle which is 4 times massive than the first particle is moving with velocity of (3.0x105 m/s) i - (1.0x106 m/s) j. The particles collide and the collision is perfectly inelastic. a. What are the velocities of the particles just after the collision? b. What percent of energy is lost just after the collision?

At S = 6m, the particle's speed becomes a linear function with respect to time. V...

At S = 6m, the particle's speed becomes a linear function with respect to time. V = (3t-2.4) m/s. How long does the particle take to arrive at t=6s? Where is the particle at t=25 seconds?

1) Calculate the magnitude of the linear momentum for the following cases. (a) a proton with...

1) Calculate the magnitude of the linear momentum for the following cases. (a) a proton with mass 1.67  10-27 kg, moving with a speed of 4.65  106 m/s kg · m/s (b) a 17.5-g bullet moving with a speed of 340 m/s kg · m/s (c) a 73.5-kg sprinter running with a speed of 12.5 m/s kg · m/s (d) the Earth (mass = 5.98  1024 kg) moving with an orbital speed equal to 2.98  104 m/s. kg · m/s 2) A soccer player...

An electron is accelerated to a speed where its total energy is 142 times larger than...

An electron is accelerated to a speed where its total energy is 142 times larger than its rest energy. How many times is the kinetic energy of the electron larger than its rest energy? What is the kinetic energy of the electron? What is the speed of the electron in terms of the speed of light? (In this part of the problem you have to enter your answer with seven or eight digits!) What is the momentum of the electron...