The attached sample test contains 10 HESI physics practice test questions, so you can precisely understand how to prepare for the upcoming HESI test’s physics knowledge.
The HESI test may be unstable, so you must read the entire query carefully, just like the entirety of an appropriate answer.
In this exam, Every question is accompanied by the correct answer and a clear explanation of the solution (roughly the same as the content in our HESI physics practice test package).
At the end of the training exam, you will get a score report that separates the subtopics that you should zero to improve quickly.
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Correct answer: There are more electrons than protons in it.
Electrons (which have a negative charge) outnumber protons in a negatively charged particle (which have a positive charge).
Correct answer: We know it's a vector quantity because the negative sign indicates a downward acceleration.
Direction and magnitude are encoded in vector quantities. The magnitude of a scalar quantity is the sole thing that gives it meaning.
The unit of the quantity is the gravitational acceleration constant for Earth: -9.8 m/s². Because the units of acceleration are length/time2, this indicates that the quantity is acceleration. It also indicates that we are using SI units. We must convert things if an issue delivers amounts in a different metric system.
− (The negative sign) indicates the quantity's direction. The positive symbol + is frequently omitted when the value is positive. We know the quantity is a vector because of its name and context.
On Earth, gravity drags us to the surface. As a result, we know that the gravitational acceleration constant has a negative sign, indicating that gravity is downward.
Correct answer: Newton's First Law of Motion
Newton's First Law of Motion states that the body at rest will remain at rest, and the body in motion will remain in motion with a constant velocity, unless acted on by an unbalanced force; F=ka
Correct answer: 745 N
Weight = milligrams
The person's weight is 76 kilograms.
Earth's gravitational constant is 9.8 m/s².
Weight = 76 kg x 9.8 m/s² = 744.8 N = 745 N
Correct answer: -4.6 m/s²
ma = F
where
F stands for Force.
m stands for mass (in kg)
a = rate of change (in m/s²)
To determine an object's acceleration, we must first isolate acceleration. We do it by dividing both sides by the mass:
ma = f
ma/m = f/m
a = F/m
4.6 m/s2 = 2.3 N / 0.5 kg
Because the puck is slowing down, we know this force is negative.
Correct answer: Average velocity
Average velocity is calculated by taking the object's initial and final speeds and averaging them
Correct answer: Vector quantity
Vector quantity is a quantity describing the time rate of change of an object's position and must be expressed in both units of magnitude and direction of motion.
Correct answer: 80 Hz
Frequency is equal to the product of speed and wavelength.
frequency = 52 m/s / 0.65 m
80 Hz is the frequency.
Correct answer: antimatter and matter
The Big Bang Theory tries to explain how the universe came to be. According to the theory, a "big bang" produced equal amounts of matter and antimatter.
Correct answer: Scalar Quantity
The Scalar quantity stated in units of magnitude and is described simply by a numeric value.
Correct answer: Project Motion
In Project Motion it is possible for an object to display two types of motion simultaneously.
Correct answer: Force
Force is defined as a push or a pull on an object.
Correct answer: Velocity
The term "velocity" refers to the speed at which something moves in a given direction.
Correct answer: Acceleration
Acceleration is the rate of change in velocity over a period of time
Correct answer: 32.86 m
Vₓ= (12.5 m/s) horizontal velocity
dᵧ= the object's vertical displacement (34 m)
dₓ = unidentified (this is what we are solving for)
t = unidentified (flight time)
a = 9.8 m/s²
Because no air resistance is assumed, dₓ = Vₓ t.
To solve this problem, we'll apply the distance equation (dₓ = Vₓ t). However, the flight time (t) is not specified in the problem, therefore we must solve for it. The following is the equation to solve for flying time:
√((vertical distance)/(1/2)(vertical acceleration)) = Flight Time
We receive the following results when we plug in our known quantities:
√((34 m)/(1/2)(9.8 m/s²)) = Flight Time
2.63 second flight time
dx = vₓt
dₓ = 12.5 m/s x 2.63 s
dₓ = 32.86 m
Correct answer: 8.75 miles
Distance traveled divided by time equals average speed.
(Average Speed) x (time) = (Distance Traveled)
The average speed is 35 miles per hour.
15 minutes divided by 60 minutes equals 1/4 hour
Distance traveled = (35 mph)(1/4 hours) = 8.75 miles
Correct answer: 2.08 x 10⁸m/s
n=c/v
1.44=(3.oo x 10⁸m/s)/v
v=(3.oo x 10⁸m/s)/1 .44
v=2.08 x 10⁸m/s
Correct answer: 0 m/s
Because sound waves cannot travel through a vacuum, the speed of sound in a vacuum is 0 m/s.
Correct answer: 24 m/s²
Acceleration is defined as a change in velocity over time.
The car accelerates from 0 to 60 m/s, resulting in a velocity change of:
60 m/s minus 0 m/s equals 60 m/s
The car took 2.5 seconds to reach 60 m/s, thus the total time is 2.5 seconds.
These figures are entered into the formula:
60 m/s ÷ 2.5 s = acceleration
24 m/s2 = acceleration
Correct answer: 101 J
½ x mv² = KE
KE stands for kinetic energy (measured in Joules – J).
m stands for mass (expressed in kilograms)
v² stands for velocity (expressed in meters per second squared)
1/2 x mv²= KE
v = 40.1 m/s
v = 40.1 m/s
KE = 1/2 x (0.125 kg) x (40.1 m/s)² = 100.5 J, or 101 J rounded up.