1) Determine the terminal velocity Vo of landing of a 6 g mass object (of a...

Hello, I am trying to use python to calculate the terminal velocity of an object falling...

Hello, I am trying to use python to calculate the terminal velocity of an object falling from a height of 3 meters. I have gotten stuck trying to actually calculate the terminal velocity. thanks for the help! Here I have posted the code I have so far. from visual import* myscene = display(range = 10, width = 600, heigth = 600, background = color.blue, title = 'lab 5' ) #display window s = vector(0,3,0) #vector for starting position m =...

An unknown object is placed inside of a spherical container and dropped from an airplane. When...

An unknown object is placed inside of a spherical container and dropped from an airplane. When empty, the spherical container has a mass of 3.00 kg. The container has a drag coefficient of 0.500 and a diameter of 39.2 cm. With the unknown object inside, the container reaches a terminal velocity of 65.2 m/s. What is the mass of the unknown object? Use 1.22 kg/m​^3 ​​for the density of air.

A spherical protein molecule has a molar mass of 60,230 g/mol and a density of 1350...

A spherical protein molecule has a molar mass of 60,230 g/mol and a density of 1350 kg/ m3. What will its terminal velocity be in water of viscosity 1.0x10-3N/m2 s? How long will it take to fall 1 cm? The time is very long and can be shortened by placing the material in a centrifuge where a very large artificial g can be created. HINT: Find the mass of a single molecule. Find the volume of a single molecule. Use...

An object A of mass 10 kg with velocity 18 m/s collides with an object B...

An object A of mass 10 kg with velocity 18 m/s collides with an object B of mass 20 kg which is at rest. The two objects undergo a perfectly inelastic collision. What is the velocity of object A after the collision?

Small spheres of diameter 1.01 mm fall through 20°C water with a terminal speed of 1.20...

Small spheres of diameter 1.01 mm fall through 20°C water with a terminal speed of 1.20 cm/s. Calculate the density of the spheres. The viscosity of water is 1.00 × 10-3 Pa·s. (Enter your answer to at least the nearest kg/m3.)

There is object-1 of mass m1=2.84kg moving on +x axis with the velocity of v1=9.62m/s. Object-1...

There is object-1 of mass m1=2.84kg moving on +x axis with the velocity of v1=9.62m/s. Object-1 is explode into two segments of masses m2=1.74 kg and m3=1.10kg. Mass m2 moves in +250 with the velocity of 3.57m/s. a) Find the x and y-components of velocity of mass m3 after collision? (4 points) b) Find the velocity component of x-direction of the center of mass of the two-particle system after collision. Find the velocity component of y-direction of the center of...

An object with a mass of 47.3 g is moving uniformly with a velocity of 39.9...

An object with a mass of 47.3 g is moving uniformly with a velocity of 39.9 m/s along the positive x-axis. A second object, of mass 36.0 g, is moving at +8.9 m/s along the same line, in front of the first mass. a) Using the usual sign conventions, what is the velocity of the centre-of-mass of the two objects? b) What is the velocity of the first particle, in the zero momentum frame, after an elastic collision? c) Using...

There is an object-1 of mass m1=1.84kg moving on +x-axis with the velocity of v1=7.62m/s. Object-1...

There is an object-1 of mass m1=1.84kg moving on +x-axis with the velocity of v1=7.62m/s. Object-1 is explode into two segments of masses m2=0.74 kg and m3=1.10kg. Mass m2 moves in +28 degrees direction on xy plane with the velocity of 1.57m/s. a) Find the x and y-components of velocity of mass m3 after collision? [Hint: you can assume the direction of m3 in any direction on xy plane with velocity components] b) Find the velocity component of x-direction of...

A bicycle rider has a drag area of 0.22 m2. She is riding at a velocity...

A bicycle rider has a drag area of 0.22 m2. She is riding at a velocity of 8.3 m/s along the road and the air density is 1.2 kg/m3. Total mass of the rider and bike is 93 kg. The coefficient of rolling resistance is 0.004. She is riding into a headwind with velocity 1.8 m/s. The road is horizontal. What power (watts) must the cyclist produce to maintain the speed of 8.3 m/s?

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...