Login
Premium
Home Question Bank Physics
Question
upstudy study bank question image url

The Applied Force is less than the quantity of Mass times Acceleration? The Applied Force is greater than the quantity of Mass times Acceleration? The Applied Force is equal to the quantity of Mass times Acceleration? The Applied Force is equal and opposite to the quantity of Mass times Acceleration?

Ask by May Griffiths. in the United States
Jan 25,2025

Real Tutor Solution

Tutor-Verified Answer

Answer

The Applied Force is less than Mass times Acceleration: \( F < m \times a \) The Applied Force is greater than Mass times Acceleration: \( F > m \times a \) The Applied Force is equal to Mass times Acceleration: \( F = m \times a \) The Applied Force is equal and opposite to Mass times Acceleration: \( F = -m \times a \)

Solution

The Applied Force is less than the quantity of Mass times Acceleration is represented by the equation: \[ F < m \times a \] The Applied Force is greater than the quantity of Mass times Acceleration is represented by the equation: \[ F > m \times a \] The Applied Force is equal to the quantity of Mass times Acceleration is represented by the equation: \[ F = m \times a \] The Applied Force is equal and opposite to the quantity of Mass times Acceleration is represented by the equation: \[ F = -m \times a \] Where: - \( F \) is the Applied Force - \( m \) is the Mass - \( a \) is the Acceleration

Reviewed and approved by the UpStudy tutoring team

error msg
Explain
Simplify this solution

The Deep Dive

When the applied force is less than the product of mass and acceleration (F < ma), the object will decelerate or not move as intended, which means friction or another opposing force is taking over. Think of it like trying to push a heavy cart uphill; your push isn't enough to make it go up! If the forces are equal (F = ma), you’re in a state of equilibrium, meaning the object remains at rest or moves at a constant speed. It’s that magical moment where nothing is speeding up or slowing down, just cruising along without a care in the world. Imagine a perfectly balanced seesaw where neither side gets pushed down!

Related Questions

7 Generalize the changes in thermal energy when matter increases in temperature and then changes state.
Physics United States Jan 29, 2025
Recoil is noticeable if we throw a heavy ball while standing on roller skates. If instead we go through the motions of throwing the ball but hold onto it, our net recoil will be (A) a) the same as before. (B) b) zero. (C) c) small, but noticeable.
Physics United States Jan 29, 2025
The force that accelerates a rocket in outer space is exerted on the rocket by the (A) a) rocket's wings. (B) b) atmospheric pressure. (C) c) rocket's nose cone. (D) d) exhaust gases. (E) e) none of these
Physics United States Jan 29, 2025
A 1000 -kg car moving at \( 10 \mathrm{~m} / \mathrm{s} \) brakes to a stop in 5 s . The average braking force is (A) a) 5000 N . (B) b) 2000 N . (C) c) 1000 N . (D) d) 4000 N .
Physics United States Jan 29, 2025
\( 1 \leftarrow \) The period of a pendulum is the time it takes the pendulum to make one full swing back and forth. The period \( T \), in seconds, is given by the formula \( T=2 \pi \sqrt{\frac{L}{32}} \), where \( L \) is the length, in feet, of the pendulum. Suppose a pendulum used to show the rotation of the earth has a period of approximately 18.2 seconds. What is its length? Use 3.14 for \( \pi \). The length of a pendulum that has a period of 18.2 seconds is 269.12 feet. (Round to two decimal places as needed.)
Physics United States Jan 29, 2025

Latest Physics Questions

7 Generalize the changes in thermal energy when matter increases in temperature and then changes state.
Physics United States Jan 29, 2025
The half-life of Beryllium-11 is 13.81 seconds. If a sample contains 160 mg , how many mg will remain after 160 seconds? \( \square \mathrm{mg} \)
Physics United States Jan 29, 2025
The period of a pendulum is the time it takes the pendulum to make one full swing back and forth. The period \( T \), in seconds, is given by the formula \( T=2 \pi \sqrt{\frac{L}{32}} \), where \( L \) is the length, in feet, of the pendulum. Suppose a pendulum used to show the rotation of the earth has a period of approximately 15.4 seconds. What is its length? Use 3.14 for \( \pi \). The length of a pendulum that has a period of 15.4 seconds is \( \square \) feet. (Round to two decimal places as needed.)
Physics United States Jan 29, 2025
\( 1 \leftarrow \) The period of a pendulum is the time it takes the pendulum to make one full swing back and forth. The period \( T \), in seconds, is given by the formula \( T=2 \pi \sqrt{\frac{L}{32}} \), where \( L \) is the length, in feet, of the pendulum. Suppose a pendulum used to show the rotation of the earth has a period of approximately 18.2 seconds. What is its length? Use 3.14 for \( \pi \). The length of a pendulum that has a period of 18.2 seconds is 269.12 feet. (Round to two decimal places as needed.)
Physics United States Jan 29, 2025
A rectangular prism measures 4.53 cm long, 3.455 cm wide, and 4.14 cm tall. It has a mass of 52.70 g . What is the density of this object?
Physics United States Jan 29, 2025
Prev Next
Try Premium now!
Try Premium and ask Thoth AI unlimited math questions now!
Maybe later Go Premium
Study can be a real struggle
Why not UpStudy it?
Select your plan below
Premium

You can enjoy

Start now
  • Step-by-step explanations
  • 24/7 expert live tutors
  • Unlimited number of questions
  • No interruptions
  • Full access to Answer and Solution
  • Full Access to PDF Chat, UpStudy Chat, Browsing Chat
Basic

Totally free but limited

  • Limited Solution
Welcome to UpStudy!
Please sign in to continue the Thoth AI Chat journey
Continue with Email
Or continue with
By clicking “Sign in”, you agree to our Terms of Use & Privacy Policy