**Use Chain Rule to find Study.com**

Since each of these functions is comprised of one function inside of another function — known as a composite function — we must use the Chain rule to find its derivative…... Since each of these functions is comprised of one function inside of another function — known as a composite function — we must use the Chain rule to find its derivative…

**Chain Rule Problems and Solutions Matheno.com**

Find the derivative of y = cscxcotx. 3. What is d dx cotx? Well, the deﬁnition of the cotangent is cotx = cosx sinx. So, by the quotient rule, its derivative is sinx(−sinx)−cosx(cosx) sin2 x = − 1 sin2 x ≡ −csc2 x (since sin2 x +cos2 x = 1). 4. To diﬀerentiate cscxcotx use the product rule: dy dx = dcscx dx cotx +cscx dcotx dx. The second derivative is the one we just cal-culated...You will need to use the product rule to find #d/dx(xcosx)#, and then the chain rule to find #d/dxsin(xcos)#, so I will explain both; Use of the Product Rule

**Chain Rule Uses How to Find Derivative Using Chain Rule**

Find Derivatives Using Chain Rules: The Chain rule states that the derivative of f(g(x)) is f'(g(x)).g'(x). It helps to differentiate composite functions. Use this Chain rule derivatives calculator to find the derivative of a function that is the composition of two functions for which derivatives exist with ease. Related Calculators: how to give yourself a humira injection site youtube.com 16/10/2010 · Best Answer: The chain rule is used when trying to find derivatives of functions inside other functions. For example: Common uses for chain rules involves expressions like (x^2+2x+5)^4.. How to find out what ip address is what

## How To Find Derivative Using Chain Rule

### Worked example Derivative of √(3x²-x) using the chain rule

- calculus Derivative using product rule and chain rule
- Use Chain Rule to find Study.com
- calculus Derivative using product rule and chain rule
- How to Use the chain rule to find derivatives in calculus

## How To Find Derivative Using Chain Rule

### The chain rule states that the derivative of f(g(x)) is f'(g(x))⋅g'(x). In other words, it helps us differentiate *composite functions*. For example, sin(x²) is a composite function because it can be constructed as f(g(x)) for f(x)=sin(x) and g(x)=x². Using the chain rule and the derivatives of sin(x) and x², we can then find …

- The chain rule can be used to find whether they are getting closer or further apart. For example, one can consider the kinematics problem where one vehicle is heading west toward an intersection at 80mph while another is heading north away from the intersection at 60mph.
- This rule is called the chain rule because we use it to take derivatives of composties of functions by chaining together their derivatives. The chain rule can be thought of as taking the derivative of the outer function (applied to the inner function) and multiplying it times the derivative of the inner function. The chain rule is arguably the most important rule of differentiation. It is
- 14/03/2008 · Using the Chain Rule - Harder Example #1 - Duration: 4:42. Chain Rule For Finding Derivatives - Duration: 18:40. The Organic Chemistry Tutor 159,207 views. 18:40. Using the Chain Rule - Harder
- ItsMyAcademy.com provides free video tutorial for derivative calculus.In calculus, the chain rule is a formula for computing the derivative of the composition of two or more functions. That is, if f is a function and g is a function, then the chain rule expresses the derivative of the composite function f ? g in terms of the derivatives of f and g.

### You can find us here:

- Australian Capital Territory: Weston Creek ACT, Duffy ACT, Downer ACT, Amaroo ACT, Symonston ACT, ACT Australia 2642
- New South Wales: Chatswood NSW, Artarmon NSW, Terramungamine NSW, Gumble NSW, Sun Valley NSW, NSW Australia 2044
- Northern Territory: Marlow Lagoon NT, Bakewell NT, Wanguri NT, Girraween NT, Angurugu NT, Amoonguna NT, NT Australia 0842
- Queensland: Morgan Park QLD, Mt Jukes QLD, Yandina QLD, Yalboroo QLD, QLD Australia 4087
- South Australia: Keppoch SA, Thompson Beach SA, Coonalpyn SA, Parrakie SA, Green Patch SA, Mount Eba SA, SA Australia 5051
- Tasmania: Mount William TAS, Upper Woodstock TAS, Mount Direction TAS, TAS Australia 7016
- Victoria: Illawarra VIC, Newmerella VIC, Kialla East VIC, Arcadia South VIC, Kellalac VIC, VIC Australia 3005
- Western Australia: Kununurra WA, Parkwood WA, Padbury WA, WA Australia 6096
- British Columbia: Nelson BC, Greenwood BC, Golden BC, Queen Charlotte BC, Osoyoos BC, BC Canada, V8W 2W6
- Yukon: Coffee Creek YT, Ogilvie YT, Gold Bottom YT, Scroggie Creek YT, Koidern YT, YT Canada, Y1A 9C8
- Alberta: Brooks AB, Drumheller AB, Mundare AB, Hay Lakes AB, Clive AB, Nampa AB, AB Canada, T5K 8J8
- Northwest Territories: Norman Wells NT, Sambaa K'e NT, Colville Lake NT, Colville Lake NT, NT Canada, X1A 3L8
- Saskatchewan: Mervin SK, Pleasantdale SK, Fort Qu'Appelle SK, Norquay SK, Bruno SK, Forget SK, SK Canada, S4P 4C9
- Manitoba: Winnipeg MB, Crystal City MB, Cartwright MB, MB Canada, R3B 5P3
- Quebec: Beauceville QC, Marieville QC, Sainte-Madeleine QC, Hudson QC, Huntingdon QC, QC Canada, H2Y 6W9
- New Brunswick: Bathurst NB, Edmundston NB, Rexton NB, NB Canada, E3B 3H7
- Nova Scotia: Clark's Harbour NS, Stellarton NS, Pictou NS, NS Canada, B3J 9S7
- Prince Edward Island: Malpeque Bay PE, Grand Tracadie PE, Montague PE, PE Canada, C1A 2N3
- Newfoundland and Labrador: Brighton NL, Holyrood NL, Mount Pearl NL, St. Pauls NL, NL Canada, A1B 9J6
- Ontario: Wareham ON, Huron East ON, Rutherglen ON, Hogg, Ompah ON, Gros Cap ON, Morganston ON, ON Canada, M7A 8L9
- Nunavut: Bay Chimo (Umingmaktok) NU, Resolute NU, NU Canada, X0A 8H7

- England: Bamber Bridge ENG, Portsmouth ENG, Peterborough ENG, Doncaster ENG, Cheltenham ENG, ENG United Kingdom W1U 1A7
- Northern Ireland: Craigavon(incl. Lurgan, Portadown) NIR, Belfast NIR, Derry(Londonderry) NIR, Newtownabbey NIR, Belfast NIR, NIR United Kingdom BT2 1H5
- Scotland: Aberdeen SCO, Dunfermline SCO, East Kilbride SCO, Paisley SCO, Paisley SCO, SCO United Kingdom EH10 5B8
- Wales: Neath WAL, Wrexham WAL, Neath WAL, Newport WAL, Cardiff WAL, WAL United Kingdom CF24 6D5