The transuranium synthesis process involves creating a transuranium element through ____.A.) The synthesis of heavy elements
B.) The transmutation of a lighter element
C.) The transmutation of uranium
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The transuranium synthesis process involves creating a transuranium element through the transmutation of a lighter element. The answer is letter B. Transuranium elements are the elements with atomic numbers greater than 92. All of these elements are unstable and decay radioactively into other elements.
Related Questions
Briefly lay out steps of using the tully fisher method.
What is the momentum of a 52 kg carton that slides at 5.0m/s across an icy surface?
A snail travels at a rate of 2.37 feet per minute. a. Write a rule to describe the function. b. How far will the snail travel in 6 minutes?
a 1.0-kg ball is thrown into the air with an initial velocity of 30. m/s. a. how much kinetic energy does the ball have? b. how much potential energy does the ball have when it reaches the top of its ascent? c. how high into the air did the ball travel?
Answers
The physics conservation of energy E = 39.2 joules.
To calculate the Physics conservation of energy.
Mass of the block, m = 5 kg
At the top, the block will have only potential energy which is given by :
P=mgh
At the bottom of the inclined plane, it will have only kinetic energy which is given by :
E=(1/2)mv2
Applying the conservation of energy as :
E=(1/2)mv2=mgh
E=5*9.8*0.8
E = 39.2 joules.
The physics conservation of energy E = 39.2 joules.
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B. a liquid.
(C. a solid.)
D. a vacuum.
I answered C and it's not correct so i dont know what else it could be please help
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Sound waves can travel through ANY material ... solid, liquid, or gas.
The thing is: Sound NEEDS material to travel through, and if there's
nothing there, then sound can't go anywhere. The correct choice
on the list is 'D' ... Sound can't travel through vacuum, because
there's nothing there. When we talk to each other, the AIR between
us carries the sound waves.
Have you ever seen any video of two astronauts standing on the
moon, or two astronauts "space-walking" on the outside of the
Space Shuttle ?
Naturally, they have their helmets on, and they're talking to
each other. How are they talking ? No matter how close together
they are, they're talking to each other by radio ! because there's
nothing between them to carry sound. Even if they're only a few
inches apart, they can SHOUT but the other one can't hear it.
I have read ... I don't think there's any video of this ... that sometimes
when two astronauts are very close together, they can talk if they
touch their helmets together. Then the sound vibrations can go from
one helmet over to the other one, through the solid shell of the helmets.
Sound waves can't travel through a vacuum. The correct option is D.
Sound waves are mechanical waves that require a medium to propagate. They travel through the vibration and interaction of particles within a medium. Now let's analyze why the other options are not true:
A) An elastic material: Sound waves can travel through elastic materials such as rubber, steel, or any other solid material. In fact, solids are one of the best conductors of sound due to the close arrangement and strong intermolecular forces between their particles.
B) A liquid: Sound waves can travel through liquids such as water, oil, or any other fluid. In liquids, the particles are loosely bound, allowing them to transmit sound waves through their vibrations.
C) A solid: Sound waves can also travel through solids. As mentioned earlier, solids are excellent conductors of sound due to the tight arrangement and strong intermolecular forces between their particles. The particles of a solid can transmit sound waves through their vibrational motion.
D) A vacuum: Sound waves cannot travel through a vacuum, which is an empty space devoid of any matter or particles. Since sound waves require a medium to propagate, a vacuum, by definition, lacks the necessary particles for sound wave transmission. In a vacuum, there are no particles to vibrate and transmit the sound waves, thus making it impossible for sound to travel.
Therefore, sound waves require a medium for propagation, and they cannot travel through a vacuum. They can travel through solids, liquids, and elastic materials where particles are present to transmit wave energy.
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Answer:
The first one.
Final answer:
If the road becomes wet or crowded, you should slow down and increase your following distance.
Explanation:
If the road becomes wet or crowded, you should slow down and increase your following distance. This is important because wet roads reduce tire traction and increase the risk of sliding and losing control. By slowing down and increasing your following distance, you give yourself more time to react and stop if necessary.
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Answers
Answer:
Therefore the wavelength of the particle is 4.83 m.
Explanation:
Transverse wave: A transverse wave is a moving wave whose direction of wave and oscillation are perpendicular to each other.
Amplitude:The amplitude of a wave is the maximum the distance from its rest position covered by a particle.
Here amplitude (A) = 3.0 cm
The ratio of maximum speed to the speed of the particle is 3.9
The maximum speed of the particle = A×ω
The speed of the particle C= f×λ
Then,
[∵ω=2πf]
m
Therefore the wavelength of the particle is 4.83 m
Answers
1) V=LWH
2)V=(4.00)(2.00)(0.50)
3)V=4cm^3
L=4
W=2
H=0.5
V=(4)(2)(0.5)
V=4cm^3
4 cubic centimeters