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Quantum Mechanics
if a car has a mass of 200 kg moving in a circular path with velocity 10m/s and the centripetal force acting on it is 2000 newtons whats the radius and acceleration
Quantum Mechanics
2. Using arc method calculate the elasticity of demand for oranges when the price
rises from $2 to $3 Price per orange, its demand reduces from 80 thousands oranges
to 70 thousands oranges. Interpret your answer in term of the farmer’s revenue.
rises from $2 to $3 Price per orange, its demand reduces from 80 thousands oranges
to 70 thousands oranges. Interpret your answer in term of the farmer’s revenue.
Quantum Mechanics
(10) A 65 kg hiker climbs to the top of a 3700m high mountain. The climb is made in 5.0 h
starting at an elevation of 2300m. Calculate the following:
a) The work done by the hiker against gravity
b) The average power output in watt and in horsepower
c) Assuming the body is 15% efficient, what rate of energy input was required?
starting at an elevation of 2300m. Calculate the following:
a) The work done by the hiker against gravity
b) The average power output in watt and in horsepower
c) Assuming the body is 15% efficient, what rate of energy input was required?
Quantum Mechanics
9. A driver notices that her 1150 kg car slows down from 85 km/h to 65 km/h in about 6.0 s
on the level when it is in neutral. Approximately what power (Watts and hp) is needed to
keep the car travelling at constant speed of 75 km/h?
on the level when it is in neutral. Approximately what power (Watts and hp) is needed to
keep the car travelling at constant speed of 75 km/h?
Quantum Mechanics
8. You drop a ball from a height of 2.0 m and it bounce back to a height of 1.5 m
a) What fraction of its initial energy is lost during the bounce?
b) What is the ball’s speed just as it leaves the ground after the bounce?
c) Where did the energy go?
a) What fraction of its initial energy is lost during the bounce?
b) What is the ball’s speed just as it leaves the ground after the bounce?
c) Where did the energy go?
Quantum Mechanics
6. What is the minimum work needed to push a 950 kg car 810 m up along a 9.0° incline?
a) Ignore friction
b) Assume the effective coefficient of friction retarding the car is 0.25
a) Ignore friction
b) Assume the effective coefficient of friction retarding the car is 0.25
Quantum Mechanics
5. What is the apparent weight of a 75 kg astronaut 4200 km from the centre of Earth’s
moon in a space vehicle?
a) Moving at constant velocity
b) Accelerating toward the moon at 2.9 m/s2
moon in a space vehicle?
a) Moving at constant velocity
b) Accelerating toward the moon at 2.9 m/s2
Quantum Mechanics
2. A ball on the end of a string is revolved at uniform rate in vertical circle of radius 72.0
cm. If its speed is 4.00 m/s and mass of 0.3 kg. Calculate the tension
in the string when ball is:
a) At top of its path
b) At bottom of its path
cm. If its speed is 4.00 m/s and mass of 0.3 kg. Calculate the tension
in the string when ball is:
a) At top of its path
b) At bottom of its path
Quantum Mechanics
1. For a car travelling with speed v around a curve of radius r.
a) Determine a formula for the angle at which a road should be banked so that no
friction is required.
b) What is this angle for an expressway off-ramp curve of radius 50 m at a design
speed of 50 km/h?
a) Determine a formula for the angle at which a road should be banked so that no
friction is required.
b) What is this angle for an expressway off-ramp curve of radius 50 m at a design
speed of 50 km/h?
Quantum Mechanics
An 18.0 Kg is released on a 37° incline and accelerates down the incline at 0.270
m/s2. Find the friction force impeding its motion. How large is the coefficient of
kinetic friction?
m/s2. Find the friction force impeding its motion. How large is the coefficient of
kinetic friction?
