![A particle moves along x - axis in such a way that its x - co - ordinate varies with time according to the equation x = 4 - 2t + t^2. A particle moves along x - axis in such a way that its x - co - ordinate varies with time according to the equation x = 4 - 2t + t^2.](https://dwes9vv9u0550.cloudfront.net/images/10145857/75fc00e3-1068-44ba-af68-70c320682218.jpg)
A particle moves along x - axis in such a way that its x - co - ordinate varies with time according to the equation x = 4 - 2t + t^2.
![Tommee Tippee Night Time Glow in the Dark Pacifiers, Symmetrical Design, BPA-Free Silicone Binkies, 6-18m, 2-Count, Colors and Designs May Vary - Walmart.com Tommee Tippee Night Time Glow in the Dark Pacifiers, Symmetrical Design, BPA-Free Silicone Binkies, 6-18m, 2-Count, Colors and Designs May Vary - Walmart.com](https://i5.walmartimages.com/asr/5f3e38fa-dac6-466c-8014-748cf108cb8c.68a602fec4cd999348bed468d8474703.png?odnHeight=612&odnWidth=612&odnBg=FFFFFF)
Tommee Tippee Night Time Glow in the Dark Pacifiers, Symmetrical Design, BPA-Free Silicone Binkies, 6-18m, 2-Count, Colors and Designs May Vary - Walmart.com
![The current in a wire varies with time according to the equation I = 4 + 2t where I is in ampere and - YouTube The current in a wire varies with time according to the equation I = 4 + 2t where I is in ampere and - YouTube](https://i.ytimg.com/vi/teWCp05Ayro/maxresdefault.jpg)
The current in a wire varies with time according to the equation I = 4 + 2t where I is in ampere and - YouTube
What is the difference between "vary from time to time" and "vary with time" ? "vary from time to time" vs "vary with time" ? | HiNative
![SOLVED:The coordinates of an object moving in the x y plane vary with time according to the equations x=-5.00 \sin \omega t and y=4.00-5.00 \cos \omega t, where \omega is a constant, SOLVED:The coordinates of an object moving in the x y plane vary with time according to the equations x=-5.00 \sin \omega t and y=4.00-5.00 \cos \omega t, where \omega is a constant,](https://cdn.numerade.com/previews/2de730bc-8545-4924-81ea-cbad0753647d_large.jpg)
SOLVED:The coordinates of an object moving in the x y plane vary with time according to the equations x=-5.00 \sin \omega t and y=4.00-5.00 \cos \omega t, where \omega is a constant,
![Let r1 (t) = 3 t vec i + 4 t ^ 2vec j and r 2 (t) = 4 t ^ 2vec i + 3 tj represent the positions of particles Let r1 (t) = 3 t vec i + 4 t ^ 2vec j and r 2 (t) = 4 t ^ 2vec i + 3 tj represent the positions of particles](https://dwes9vv9u0550.cloudfront.net/images/4329453/6dbea4c5-8a06-40f2-9853-28d5d00bfeff.jpg)
Let r1 (t) = 3 t vec i + 4 t ^ 2vec j and r 2 (t) = 4 t ^ 2vec i + 3 tj represent the positions of particles
![SOLVED:The coordinates of an object moving in the x y plane vary with time according to the equations x=-5.00 \sin \omega t and y=4.00-5.00 \cos \omega t, where \omega is a constant, SOLVED:The coordinates of an object moving in the x y plane vary with time according to the equations x=-5.00 \sin \omega t and y=4.00-5.00 \cos \omega t, where \omega is a constant,](https://cdn.numerade.com/previews/a1047da3-fcfb-432b-a59e-0d755c321dc3.gif)
SOLVED:The coordinates of an object moving in the x y plane vary with time according to the equations x=-5.00 \sin \omega t and y=4.00-5.00 \cos \omega t, where \omega is a constant,
![The displacement `x` of a particle varies with time `t` as `x = ae^(-alpha t) + be^(beta t)`. Where - YouTube The displacement `x` of a particle varies with time `t` as `x = ae^(-alpha t) + be^(beta t)`. Where - YouTube](https://i.ytimg.com/vi/9qt01U9IG0A/maxresdefault.jpg)
The displacement `x` of a particle varies with time `t` as `x = ae^(-alpha t) + be^(beta t)`. Where - YouTube
![The coordinates of a particle moving in XY-plane vary with time as x= 4t^(2), y= 2t. The locus of the particle is a : - The coordinates of a particle moving in XY-plane vary with time as x= 4t^(2), y= 2t. The locus of the particle is a : -](https://d10lpgp6xz60nq.cloudfront.net/ss/web/728737.jpg)
The coordinates of a particle moving in XY-plane vary with time as x= 4t^(2), y= 2t. The locus of the particle is a : -
![The position `x` of a particle varies with time `t` as `x=at^(2)-bt^(3)`. The acceleration at time - YouTube The position `x` of a particle varies with time `t` as `x=at^(2)-bt^(3)`. The acceleration at time - YouTube](https://i.ytimg.com/vi/0BVo3mLXFsk/maxresdefault.jpg)