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1. How much energy can be obtained from conversion of 1.0 gram of mass?
2. How much mass could this energy raise to a height of 0.23 km above the Earth's surface?.
3. What is the speed of a proton accelerated by a potential dissimilarity of 112 MV?
A 2000 kg car is traveling around a flat curve with a radius of 20 m. If the maximum frictional force is 10,000 N, then what is the fastest speed that the car can travel around the curve
question1a neutron star and a black hole are 2.400e12 m from each other at a certain point in their orbit. the neutron
In a local bar, a customer slides an empty beer mug down the counter for a refill. The height of the counter is h. With what velocity did the mug leave the counter
The force lightly damped harmonic oscillator of mass, 0.062 kgs, driving force F0 = 4.4 N and linewidth 35 radians/second, Determine the new damping constant
a circular wire coil with resistance 1.4 and an area 5.0x10^-3m^2 lies perpendicular to a magnetic field that's increasing at 2.0T/s, how many turns are in the coil?
A black wood stove with surface area 4.6 m^2 is made from cast iron 4.0 mm thick. What is the rate of heat loss by radiation from the stove
consider a circuit consisting of a battery of voltage v and a parallel plate capacitor of capacitance of c0. if a
A string that is fixed at both ends has a length of 2.49 m. When the string vibrates at a frequency of 80.8 Hz, What is the fundamental frequency of the string
A 24 cm long wire with a linear density of 16.5 g/m passes across the open end of a 87 cm long open-closed tube of air. If the wire, What is the fundamental frequency of the wire
An electron follows a circular orbit around the nucleus of a hydrogen atom at a radius of 5 *10^11m and with aperiod of 1.4 *10^-16s. What is the magnitude of the orbital magnetic dipole moment of the hydrogen atom
A vacuum cleaner is plugged into a 120.0-V socket and uses 3.0A of current in normal operation when the back enf generated by the electric motor is 72.0 V. Find the coil resistance of the motor.
a. a particle of mass m and energy e is inside a square tube with infinite potential barriers at x 0 x a y 0 and y
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