If a ball was thrown upward at 46.3 m/s how long would the ball stay in the air
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The ball is against the vector of gravity. Then, the gravity will be negative.
The ball will stop in the air after approx. 4.72 seconds. And will take the same time to hit the ground.
It will stay approx. 9.44 seconds in the air.
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A 250 gram ball at the end of a string is revolving uniformly in a circle of radius 0.75 meters.The ball makes 2.0 revolutions per second. What is the centripetal acceleration?
What is the difference between the fields surrounding a stationary charge and those that surround a moving charge? A moving charge has only an electric field and a stationary charge has only a magnetic field. A moving charge has both an electric and magnetic field and a stationary charge has only an electric field. A moving charge has only a magnetic field and a stationary charge has both an electric and a magnetic field. There is no difference between the fields surrounding a stationary charge and those that surround a moving charge—both have an electric and a magnetic field.
A ball is thrown into the air and caught at the exact same distance from the ground. At what point is the ball's kinetic energy the greatest? Include air friction in your consideration.A.just before it is caughtB.at the highest point of its pathC.the instant it leaves the thrower's handD.halfway between where it is thrown and the highest point
John can travel to atlanta 560 miles in 9 hours what is his velocity
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The heat capacity of a sample should be divided by the number of moles of a substance to find the specific heat capacity of that substance. For example, the specific heat capacity of methane is 4.475 kJ/kg-K.
Answers
Answer:Eddy current inspection.
Explanation:EDDY CURRENTS are currents which are produced as a result of changes observed within the magnetic field of an electric circuits. Eddy currents are also called Foucault's Currents. Eddy currents can heat up objects without actually coming in contact with that object.
Eddy current testing or inspection ( ECT) is an electromagnetic testing/inspection methods applied in nondestructive testing (NDT).
Nondestructive testing utilises
Electromagnetic induction to detect and describe surface and sub-surface issuess in conductive materials according to the features of the issues or problems in the conductive material.
Answer:Eddy current testing method.
Explanation:
Non destructive testing methods are techniques which makes use of electromagnetic radiation to examine and detect anomalies in a wide variety of articles( metallic or non - metallic) without causing any changes to it. Non destructive testing is used in science and technology fields such as:
- petroleum engineering,
-mechanical engineering,
- forensic engineering,
- aeronautical engineering and
- medicine.
Types of non destructive testing includes
Eddy current testing, magnetic- particle testing, liquid penetrant testing, radiographic testing, ultrasonic testing, and visual testing.
Eddy current testing method is used to detect surface or near surface defects in most metals, and may also be used to separate metals or alloys and their heat-treat conditions.
B. Both atoms will have the same number of protons.
C. Both atoms will have the same number of neutrons.
D. Cobalt has one less proton.
Answers
Answer:
Cobalt has one less proton.
Explanation:
Nickel and Cobalt both has almost same atomic mass number approximately 59 but has different atomic number.
Number of proton and electrons in an atom is given by,
Number of proton = Number of electron = atomic number of an atom.
Number of neutron in an atom is given by,
Number of neutrons = Atomic mass number - atomic number
Case 1: Cobalt
Atomic mass number = 59
Atomic number = 27
Number of proton and electrons in Nickel is given by,
Number of proton = Number of electron = atomic number of an atom.
Number of proton = 27
Number of proton = 27
Number of neutron in an atom is given by,
Number of neutrons = Atomic mass number - atomic number
Number of neutrons = 59 - 27
Number of neutrons = 32
Case 2: Nickel
Atomic mass number = 59
Atomic number = 28
Number of proton and electrons in Nickel is given by,
Number of proton = Number of electron = atomic number of an atom.
Number of proton = 28
Number of neutron in an atom is given by,
Number of neutrons = Atomic mass number - atomic number
Number of neutrons = 59 - 28
Number of neutrons = 31
Cobalt has one less proton.
Thus, Option D is correct.
Answer: The correct answer is option D.
Explanation:
Cobalt and Nickel both are transition metals which means that their last electron enter d-orbitals.
These two elements have similar atomic masses but differ in the atomic number.
Atomic number is equal to the number of protons or electrons present in that element.
Atomic number = number of protons = number of electrons
Atomic Mass is the sum of protons and neutrons in an element
Atomic mass = Number of protons + Number of neutrons
- For Cobalt:
Atomic Number = 27
Number of protons = 27
Atomic mass = 59
Number of neutrons = 59 - 27 = 32
Hence, Number of protons in this element is 27 and number of neutrons are 32.
- For Nickel:
Atomic Number = 28
Number of protons = 28
Atomic mass = 59
Number of neutrons = 59 - 28 = 31
Hence, Number of protons in this element is 28 and number of neutrons are 31.
- From the above information, it is visible that cobalt has one less proton that the nickel.
Hence, the correct answer is option D.
Answers
Answer:
number 2!
Explanation:
Answer:
2s to 4s
Explanation:
Since the graph measures acceleration over time, when the line does not move up or down is when you can see a constant velocity.
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D = (1/2) (gravity) (time)² .
If the ball falls 0.9 meter, then
0.9 m = (1/2) (9.8 m/s²) (time)²
Divide each side
by 4.9 m/s² : 0.9 m / 4.9 m/s² = time²
Take the square root
of each side: time = √(0.9/4.9) sec²
= 0.43 second .
The horizontal motion of the ball makes no difference.
It doesn't matter whether the ball rolls off of a table,
gets dropped from a hand, or shot horizontally from
a gun. It still hits the floor or the ground 0.43 sec later.
Answer:
.35 s
Explanation:
x = v(i)t + 1/2at^2
gravity = 9.81 m/s^2 = a
.6 m = 1/2at^2
(.6 m) * 2 = (1/2at^2)*2
1.2 m = at^2
(1.2 m)/a = (at^2)/a
0.12 s^2 = t^2
sqrt(.12 s^2) = sqrt(t^2)
.35 s = t
Answers
Answer:
31.6
Explanation:
velocity÷ time
212 ÷ 6.7 = 31.6m/s